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authorChris Steffen <cwsteffen@us.ibm.com>2018-11-27 15:01:52 -0600
committerChristian R. Geddes <crgeddes@us.ibm.com>2019-03-13 10:38:12 -0500
commit298aa306a1f46f2470edf969cbbbe9fd0e716908 (patch)
treefc049ff1eca6147c0b65b37d7a0527fd7a3de71e /src
parent038631ba24f02f4019473f452d728c5604075176 (diff)
downloadtalos-hostboot-298aa306a1f46f2470edf969cbbbe9fd0e716908.tar.gz
talos-hostboot-298aa306a1f46f2470edf969cbbbe9fd0e716908.zip
P9A OMI Dccal / Scominit
Change-Id: I87dc51ddcffe76e5d5aaf4176e5a3f643ce7991c Reviewed-on: http://rchgit01.rchland.ibm.com/gerrit1/69200 Tested-by: FSP CI Jenkins <fsp-CI-jenkins+hostboot@us.ibm.com> Tested-by: Jenkins Server <pfd-jenkins+hostboot@us.ibm.com> Tested-by: HWSV CI <hwsv-ci+hostboot@us.ibm.com> Tested-by: Hostboot CI <hostboot-ci+hostboot@us.ibm.com> Reviewed-by: Benjamin Gass <bgass@us.ibm.com> Reviewed-by: Thi N. Tran <thi@us.ibm.com> Reviewed-by: Jennifer A. Stofer <stofer@us.ibm.com> Reviewed-on: http://rchgit01.rchland.ibm.com/gerrit1/69208 Tested-by: Jenkins OP Build CI <op-jenkins+hostboot@us.ibm.com> Reviewed-by: Christian R. Geddes <crgeddes@us.ibm.com>
Diffstat (limited to 'src')
-rw-r--r--src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.C2240
-rw-r--r--src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.H45
-rw-r--r--src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.mk27
-rw-r--r--src/import/chips/p9/procedures/hwp/io/p9_io_scom.H11
-rw-r--r--src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.C790
-rw-r--r--src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.H65
-rw-r--r--src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.mk27
-rw-r--r--src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.C113
-rw-r--r--src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.H76
-rw-r--r--src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.mk28
-rw-r--r--src/import/chips/p9/procedures/xml/attribute_info/p9a_io_omi_attributes.xml146
-rwxr-xr-xsrc/import/chips/p9/procedures/xml/error_info/p9a_io_omi_errors.xml56
12 files changed, 3623 insertions, 1 deletions
diff --git a/src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.C b/src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.C
new file mode 100644
index 000000000..67b67cd85
--- /dev/null
+++ b/src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.C
@@ -0,0 +1,2240 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.C $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2018,2019 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* Licensed under the Apache License, Version 2.0 (the "License"); */
+/* you may not use this file except in compliance with the License. */
+/* You may obtain a copy of the License at */
+/* */
+/* http://www.apache.org/licenses/LICENSE-2.0 */
+/* */
+/* Unless required by applicable law or agreed to in writing, software */
+/* distributed under the License is distributed on an "AS IS" BASIS, */
+/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */
+/* implied. See the License for the specific language governing */
+/* permissions and limitations under the License. */
+/* */
+/* IBM_PROLOG_END_TAG */
+#include "p9a_omi_io_scom.H"
+#include <stdint.h>
+#include <stddef.h>
+#include <fapi2.H>
+
+using namespace fapi2;
+
+constexpr uint64_t literal_0 = 0;
+constexpr uint64_t literal_1 = 1;
+constexpr uint64_t literal_0b0011 = 0b0011;
+constexpr uint64_t literal_0b10000 = 0b10000;
+constexpr uint64_t literal_0b1011 = 0b1011;
+constexpr uint64_t literal_0b1010 = 0b1010;
+constexpr uint64_t literal_0b1100 = 0b1100;
+constexpr uint64_t literal_0b000000 = 0b000000;
+constexpr uint64_t literal_0x0 = 0x0;
+constexpr uint64_t literal_0b010 = 0b010;
+constexpr uint64_t literal_0b001 = 0b001;
+constexpr uint64_t literal_0b0010 = 0b0010;
+constexpr uint64_t literal_0b0001 = 0b0001;
+constexpr uint64_t literal_0b101 = 0b101;
+constexpr uint64_t literal_0b100 = 0b100;
+constexpr uint64_t literal_0b0000 = 0b0000;
+constexpr uint64_t literal_0b110 = 0b110;
+constexpr uint64_t literal_0b00 = 0b00;
+constexpr uint64_t literal_0b01110 = 0b01110;
+constexpr uint64_t literal_0b0010101 = 0b0010101;
+constexpr uint64_t literal_0b0010110 = 0b0010110;
+constexpr uint64_t literal_0b1000110 = 0b1000110;
+
+fapi2::ReturnCode p9a_omi_io_scom(const fapi2::Target<fapi2::TARGET_TYPE_OMIC>& TGT0,
+ const fapi2::Target<fapi2::TARGET_TYPE_SYSTEM>& TGT1, const fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP>& TGT2)
+{
+ {
+ fapi2::ATTR_EC_Type l_chip_ec;
+ fapi2::ATTR_NAME_Type l_chip_id;
+ FAPI_TRY(FAPI_ATTR_GET_PRIVILEGED(fapi2::ATTR_NAME, TGT2, l_chip_id));
+ FAPI_TRY(FAPI_ATTR_GET_PRIVILEGED(fapi2::ATTR_EC, TGT2, l_chip_ec));
+ fapi2::ATTR_IS_SIMULATION_Type l_TGT1_ATTR_IS_SIMULATION;
+ FAPI_TRY(FAPI_ATTR_GET(fapi2::ATTR_IS_SIMULATION, TGT1, l_TGT1_ATTR_IS_SIMULATION));
+ uint64_t l_def_IS_HW = (l_TGT1_ATTR_IS_SIMULATION == literal_0);
+ uint64_t l_def_IS_SIM = (l_TGT1_ATTR_IS_SIMULATION == literal_1);
+ fapi2::buffer<uint64_t> l_scom_buffer;
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000000701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000010701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000010701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000020701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000020701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000030701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_0_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000030701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000040701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000040701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000050701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000050701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000060701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000060701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000070701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_1_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000070701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000080701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000080701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000090701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000090701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000000a0701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000000a0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000000b0701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_2_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000000b0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000000c0701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000000c0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000000d0701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000000d0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000000e0701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000000e0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000000f0701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_3_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000000f0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000100701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000100701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000110701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000110701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000120701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000120701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000130701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_4_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000130701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000140701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_0_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000140701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000150701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_1_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000150701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000160701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_2_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000160701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800000170701103full, l_scom_buffer ));
+
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF = 0x0;
+ l_scom_buffer.insert<53, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_5_OFF );
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_6_OFF );
+
+ if (l_def_IS_HW)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF = 0x0;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_OFF );
+ }
+ else if (l_def_IS_SIM)
+ {
+ constexpr auto
+ l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON = 0x1;
+ l_scom_buffer.insert<55, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXPACKS_5_RXPACK_RD_SLICE_3_RX_DAC_REGS_RX_DAC_REGS_RX_PL_DATA_DAC_SPARE_MODE_7_ON );
+ }
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800000170701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028000701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028010701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028010701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028020701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028020701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028030701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028030701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028040701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028040701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028050701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028050701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028060701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028060701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028070701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028070701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028080701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028080701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028090701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028090701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000280a0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000280a0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000280b0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000280b0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000280c0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000280c0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000280d0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000280d0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000280e0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000280e0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000280f0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000280f0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028100701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028100701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028110701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028110701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028120701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028120701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028130701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028130701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028140701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028140701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028150701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028150701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028160701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028160701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800028170701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800028170701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030000701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030010701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030010701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030020701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030020701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030030701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030030701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030040701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030040701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030050701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030050701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030060701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030060701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030070701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030070701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030080701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030080701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030090701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030090701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000300a0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000300a0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000300b0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000300b0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000300c0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000300c0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000300d0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000300d0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000300e0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000300e0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000300f0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000300f0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030100701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030100701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030110701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030110701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030120701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030120701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030130701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030130701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030140701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030140701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030150701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030150701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030160701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030160701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800030170701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800030170701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098000701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098010701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098010701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098020701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098020701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098030701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098030701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098040701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098040701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098050701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098050701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098060701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098060701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098070701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098070701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098080701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098080701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098090701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098090701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000980a0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000980a0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000980b0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000980b0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000980c0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000980c0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000980d0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000980d0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000980e0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000980e0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000980f0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000980f0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098100701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098100701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098110701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098110701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098120701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098120701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098130701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098130701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098140701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098140701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098150701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098150701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098160701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098160701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800098170701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800098170701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0000701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0010701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0010701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0020701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0020701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0030701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0030701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0040701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0040701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0050701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0050701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0060701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0060701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0070701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0070701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0080701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0080701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0090701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0090701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a00a0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a00a0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a00b0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a00b0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a00c0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a00c0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a00d0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a00d0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a00e0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a00e0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a00f0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a00f0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0100701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0100701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0110701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0110701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0120701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0120701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0130701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0130701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0140701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0140701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0150701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0150701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0160701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0160701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000a0170701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000a0170701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0000701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0010701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0010701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0020701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0020701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0030701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0030701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0040701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0040701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0050701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0050701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0060701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0060701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0070701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0070701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0080701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0080701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0090701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0090701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c00a0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c00a0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c00b0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c00b0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c00c0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c00c0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c00d0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c00d0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c00e0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c00e0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c00f0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c00f0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0100701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0100701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0110701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0110701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0120701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0120701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0130701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0130701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0140701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0140701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0150701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0150701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0160701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0160701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c0170701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<52, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<57, 5, 59, uint64_t>(literal_0b10000 );
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b1011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c0170701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8000701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8010701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8010701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8020701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8020701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8030701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8030701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8040701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8040701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8050701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8050701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8060701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8060701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8070701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8070701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8080701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8080701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8090701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8090701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c80a0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c80a0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c80b0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c80b0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c80c0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c80c0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c80d0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c80d0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c80e0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c80e0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c80f0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c80f0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8100701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8100701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8110701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8110701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8120701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8120701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8130701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8130701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8140701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8140701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8150701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8150701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8160701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8160701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8000c8170701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<53, 4, 60, uint64_t>(literal_0b1010 );
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b0011 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8000c8170701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228000701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228010701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228010701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228020701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228020701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228030701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228030701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228040701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228040701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228050701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228050701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228060701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228060701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228070701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228070701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228080701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228080701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228090701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228090701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8002280a0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8002280a0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8002280b0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8002280b0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8002280c0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8002280c0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8002280d0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8002280d0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8002280e0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8002280e0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x8002280f0701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x8002280f0701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228100701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228100701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228110701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228110701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228120701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228120701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228130701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228130701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228140701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228140701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228150701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228150701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228160701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228160701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800228170701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b1100 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800228170701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800800000701103full, l_scom_buffer ));
+
+ constexpr auto l_MCP_OMI0_IOO_CPLT_RX0_RXCTL_CTL_REGS_RX_CTL_REGS_RX_PG_SPARE_MODE_4_OFF = 0x0;
+ l_scom_buffer.insert<52, 1, 63, uint64_t>(l_MCP_OMI0_IOO_CPLT_RX0_RXCTL_CTL_REGS_RX_CTL_REGS_RX_PG_SPARE_MODE_4_OFF );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800800000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800808000701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<48, 6, 58, uint64_t>(literal_0b000000 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800808000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800818000701103full, l_scom_buffer ));
+
+ constexpr auto l_MCP_OMI0_IOO_CPLT_RX0_RXCTL_CTL_REGS_RX_CTL_REGS_RX_RECAL_REQ_DL_MASK_OFF = 0x0;
+ l_scom_buffer.insert<54, 1, 63, uint64_t>(l_MCP_OMI0_IOO_CPLT_RX0_RXCTL_CTL_REGS_RX_CTL_REGS_RX_RECAL_REQ_DL_MASK_OFF );
+ constexpr auto l_MCP_OMI0_IOO_CPLT_RX0_RXCTL_CTL_REGS_RX_CTL_REGS_RX_RECAL_ABORT_DL_MASK_OFF = 0x0;
+ l_scom_buffer.insert<57, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXCTL_CTL_REGS_RX_CTL_REGS_RX_RECAL_ABORT_DL_MASK_OFF );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800818000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800830000701103full, l_scom_buffer ));
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<56, 4, 60, uint64_t>(literal_0x0 );
+ }
+
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800830000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800840000701103full, l_scom_buffer ));
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0x0 );
+ }
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<52, 4, 60, uint64_t>(literal_0x0 );
+ }
+
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800840000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800858000701103full, l_scom_buffer ));
+
+ if (l_def_IS_HW)
+ {
+ l_scom_buffer.insert<48, 3, 61, uint64_t>(literal_0b010 );
+ }
+ else if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<48, 3, 61, uint64_t>(literal_0b001 );
+ }
+
+ if (l_def_IS_HW)
+ {
+ l_scom_buffer.insert<51, 3, 61, uint64_t>(literal_0b010 );
+ }
+ else if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<51, 3, 61, uint64_t>(literal_0b001 );
+ }
+
+ if (l_def_IS_HW)
+ {
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0010 );
+ }
+ else if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0b0001 );
+ }
+
+ l_scom_buffer.insert<54, 3, 61, uint64_t>(literal_0b101 );
+ l_scom_buffer.insert<57, 3, 61, uint64_t>(literal_0b101 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800858000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800860000701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<48, 3, 61, uint64_t>(literal_0b010 );
+ l_scom_buffer.insert<51, 3, 61, uint64_t>(literal_0b010 );
+ l_scom_buffer.insert<54, 3, 61, uint64_t>(literal_0b010 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800860000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800868000701103full, l_scom_buffer ));
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0x0 );
+ }
+
+ if (l_def_IS_HW)
+ {
+ l_scom_buffer.insert<60, 3, 61, uint64_t>(literal_0b100 );
+ }
+ else if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<60, 3, 61, uint64_t>(literal_0b010 );
+ }
+
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800868000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800878000701103full, l_scom_buffer ));
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<56, 4, 60, uint64_t>(literal_0x0 );
+ }
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0x0 );
+ }
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b0000 );
+ }
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<52, 4, 60, uint64_t>(literal_0b0000 );
+ }
+
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800878000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800880000701103full, l_scom_buffer ));
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<60, 4, 60, uint64_t>(literal_0x0 );
+ }
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<56, 4, 60, uint64_t>(literal_0x0 );
+ }
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0b0000 );
+ }
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<52, 4, 60, uint64_t>(literal_0b0000 );
+ }
+
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800880000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800888000701103full, l_scom_buffer ));
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<48, 4, 60, uint64_t>(literal_0x0 );
+ }
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<56, 4, 60, uint64_t>(literal_0x0 );
+ }
+
+ if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<52, 4, 60, uint64_t>(literal_0x0 );
+ }
+
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800888000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800970000701103full, l_scom_buffer ));
+
+ constexpr auto l_MCP_OMI0_IOO_CPLT_RX0_RXCTL_CTL_REGS_RX_CTL_REGS_RX_RC_ENABLE_CTLE_1ST_LATCH_OFFSET_CAL_ON = 0x1;
+ l_scom_buffer.insert<48, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXCTL_CTL_REGS_RX_CTL_REGS_RX_RC_ENABLE_CTLE_1ST_LATCH_OFFSET_CAL_ON );
+ constexpr auto l_MCP_OMI0_IOO_CPLT_RX0_RXCTL_CTL_REGS_RX_CTL_REGS_RX_RC_ENABLE_AUTO_RECAL_OFF = 0x0;
+ l_scom_buffer.insert<51, 1, 63, uint64_t>
+ (l_MCP_OMI0_IOO_CPLT_RX0_RXCTL_CTL_REGS_RX_CTL_REGS_RX_RC_ENABLE_AUTO_RECAL_OFF );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800970000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800988000701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<48, 3, 61, uint64_t>(literal_0b110 );
+ l_scom_buffer.insert<51, 2, 62, uint64_t>(literal_0b00 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800988000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800c0c000701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<48, 6, 58, uint64_t>(literal_0b000000 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800c0c000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800f1c000701103full, l_scom_buffer ));
+
+ l_scom_buffer.insert<48, 5, 59, uint64_t>(literal_0b01110 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800f1c000701103full, l_scom_buffer));
+ }
+ {
+ FAPI_TRY(fapi2::getScom( TGT0, 0x800f2c000701103full, l_scom_buffer ));
+
+ if (l_def_IS_HW)
+ {
+ l_scom_buffer.insert<48, 7, 57, uint64_t>(literal_0b0010101 );
+ }
+ else if (l_def_IS_SIM)
+ {
+ l_scom_buffer.insert<48, 7, 57, uint64_t>(literal_0b0010110 );
+ }
+
+ l_scom_buffer.insert<55, 7, 57, uint64_t>(literal_0b1000110 );
+ FAPI_TRY(fapi2::putScom(TGT0, 0x800f2c000701103full, l_scom_buffer));
+ }
+
+ };
+fapi_try_exit:
+ return fapi2::current_err;
+}
diff --git a/src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.H b/src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.H
new file mode 100644
index 000000000..447304e4f
--- /dev/null
+++ b/src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.H
@@ -0,0 +1,45 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.H $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2018,2019 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* Licensed under the Apache License, Version 2.0 (the "License"); */
+/* you may not use this file except in compliance with the License. */
+/* You may obtain a copy of the License at */
+/* */
+/* http://www.apache.org/licenses/LICENSE-2.0 */
+/* */
+/* Unless required by applicable law or agreed to in writing, software */
+/* distributed under the License is distributed on an "AS IS" BASIS, */
+/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */
+/* implied. See the License for the specific language governing */
+/* permissions and limitations under the License. */
+/* */
+/* IBM_PROLOG_END_TAG */
+#ifndef _INIT_P9A_OMI_IO_SCOM_PROCEDURE_H_
+#define _INIT_P9A_OMI_IO_SCOM_PROCEDURE_H_
+
+
+#include <stddef.h>
+#include <stdint.h>
+#include <fapi2.H>
+
+
+typedef fapi2::ReturnCode (*p9a_omi_io_scom_FP_t)(const fapi2::Target<fapi2::TARGET_TYPE_OMIC>&,
+ const fapi2::Target<fapi2::TARGET_TYPE_SYSTEM>&, const fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP>&);
+
+extern "C"
+{
+
+ fapi2::ReturnCode p9a_omi_io_scom(const fapi2::Target<fapi2::TARGET_TYPE_OMIC>& TGT0,
+ const fapi2::Target<fapi2::TARGET_TYPE_SYSTEM>& TGT1, const fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP>& TGT2);
+
+}
+
+#endif
diff --git a/src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.mk b/src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.mk
new file mode 100644
index 000000000..7e94f249e
--- /dev/null
+++ b/src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.mk
@@ -0,0 +1,27 @@
+# IBM_PROLOG_BEGIN_TAG
+# This is an automatically generated prolog.
+#
+# $Source: src/import/chips/p9/procedures/hwp/initfiles/p9a_omi_io_scom.mk $
+#
+# OpenPOWER HostBoot Project
+#
+# Contributors Listed Below - COPYRIGHT 2018,2019
+# [+] International Business Machines Corp.
+#
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+# http://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
+# implied. See the License for the specific language governing
+# permissions and limitations under the License.
+#
+# IBM_PROLOG_END_TAG
+PROCEDURE=p9a_omi_io_scom
+lib$(PROCEDURE)_COMMONFLAGS+=-fno-var-tracking-assignments
+$(call BUILD_PROCEDURE)
diff --git a/src/import/chips/p9/procedures/hwp/io/p9_io_scom.H b/src/import/chips/p9/procedures/hwp/io/p9_io_scom.H
index 0f1d0d614..2c73ce4cd 100644
--- a/src/import/chips/p9/procedures/hwp/io/p9_io_scom.H
+++ b/src/import/chips/p9/procedures/hwp/io/p9_io_scom.H
@@ -5,7 +5,7 @@
/* */
/* OpenPOWER HostBoot Project */
/* */
-/* Contributors Listed Below - COPYRIGHT 2016,2018 */
+/* Contributors Listed Below - COPYRIGHT 2016,2019 */
/* [+] International Business Machines Corp. */
/* */
/* */
@@ -57,6 +57,7 @@
#define P9_OBUS2_PHY_BASE_0x0B010C00 0x0B010C00
#define P9_OBUS3_PHY_BASE_0x0C010C00 0x0C010C00
#define P9_DMI0_PHY_BASE_0x07011000 0x07011000
+#define P9A_OMI_PHY_BASE_0x07011000 0x07011000
#define CEN_PHY_BASE_0x02010400 0x02010400
//-----------------------------------------------------------------------------
@@ -135,6 +136,14 @@ inline uint32_t get_base_address( const fapi2::Target < K > i_target, uint32_t&
o_base_addr = P9_DMI0_PHY_BASE_0x07011000;
break;
+ case fapi2::TargetType::TARGET_TYPE_OMI:
+ o_base_addr = P9A_OMI_PHY_BASE_0x07011000;
+ break;
+
+ case fapi2::TargetType::TARGET_TYPE_OMIC:
+ o_base_addr = P9A_OMI_PHY_BASE_0x07011000;
+ break;
+
case fapi2::TargetType::TARGET_TYPE_MC:
o_base_addr = P9_DMI0_PHY_BASE_0x07011000;
break;
diff --git a/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.C b/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.C
new file mode 100644
index 000000000..10748a148
--- /dev/null
+++ b/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.C
@@ -0,0 +1,790 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.C $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2015,2019 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* Licensed under the Apache License, Version 2.0 (the "License"); */
+/* you may not use this file except in compliance with the License. */
+/* You may obtain a copy of the License at */
+/* */
+/* http://www.apache.org/licenses/LICENSE-2.0 */
+/* */
+/* Unless required by applicable law or agreed to in writing, software */
+/* distributed under the License is distributed on an "AS IS" BASIS, */
+/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */
+/* implied. See the License for the specific language governing */
+/* permissions and limitations under the License. */
+/* */
+/* IBM_PROLOG_END_TAG */
+///
+/// @file p9a_io_omi_dccal.C
+/// @brief Train the Link.
+///-----------------------------------------------------------------------------
+/// *HWP HWP Owner : Chris Steffen <cwsteffen@us.ibm.com>
+/// *HWP HWP Backup Owner : Gary Peterson <garyp@us.ibm.com>
+/// *HWP FW Owner : Jamie Knight <rjknight@us.ibm.com>
+/// *HWP Team : IO
+/// *HWP Level : 3
+/// *HWP Consumed by : FSP:HB
+///-----------------------------------------------------------------------------
+///
+/// @verbatim
+/// High-level procedure flow:
+///
+/// Run Dccal
+///
+/// Procedure Prereq:
+/// - System clocks are running.
+/// - Scominit Procedure is completed.
+///
+/// @endverbatim
+///----------------------------------------------------------------------------
+
+//-----------------------------------------------------------------------------
+// Includes
+//-----------------------------------------------------------------------------
+#include <p9a_io_omi_dccal.H>
+#include <p9_io_scom.H>
+#include <p9_io_regs.H>
+
+//-----------------------------------------------------------------------------
+// Function Declarations
+//-----------------------------------------------------------------------------
+
+//-----------------------------------------------------------------------------
+// Function Definitions
+//-----------------------------------------------------------------------------
+
+namespace P9A_IO_OMI_DCCAL
+{
+
+/**
+ * @brief Converts a decimal value to a thermometer code
+ * @param[in] i_dec Decimal Value
+ * @retval Thermometer Value
+ */
+uint32_t toTherm(const uint32_t i_dec)
+{
+ return ((0x1 << i_dec) - 1 );
+}
+
+/**
+ * @brief Converts a decimal value to a thermometer code with a MSB 1/2 strength bit
+ * @param[in] i_dec Decimal Value
+ * @param[in] i_width Width of Register
+ * @retval Thermometer Value
+ */
+uint32_t toThermWithHalf(const uint32_t i_dec, const uint8_t i_width)
+{
+ // If the LSB of the 2r equivalent is on, then we need to set the 2r bit (MSB)
+ uint32_t halfOn = (i_dec & 0x1) << (i_width - 1);
+
+ // Shift the 2r equivalent to a 1r value and convert to a thermometer code.
+ uint32_t x1Equivalent ((0x1 << (i_dec >> 0x1)) - 1);
+
+ // combine 1r equivalent thermometer code + the 2r MSB value.
+ return halfOn | x1Equivalent ;
+}
+
+/**
+ * @brief Tx Z Impedance Calibration Get Results
+ * @param[in] io_pvalx4 Tx Zcal P-value X4
+ * @param[in] io_nvalx4 Tx Zcal N-value X4
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode tx_zcal_verify_results(uint32_t& io_pvalx4, uint32_t& io_nvalx4)
+{
+ // l_zcal_p and l_zcal_n are 9 bit registers
+ // These are also 4x of a 1R segment
+ const uint32_t X4_MIN = 16 * 4; // 16 segments * 4 = 64 (0x40)
+ const uint32_t X4_MAX = 33 * 4; // 33 segments * 4 = 132(0x84)
+ FAPI_IMP("tx_zcal_verify_results: I/O OMI Entering");
+
+ FAPI_INF("Min/Max Allowed(0x%X,0x%X) Read Pval/Nval(0x%X,0x%X)",
+ X4_MIN, X4_MAX, io_pvalx4, io_nvalx4);
+
+ if(io_pvalx4 > X4_MAX)
+ {
+ FAPI_ERR("I/O OMI Tx Zcal Pval(0x%X) > Max Allowed(0x%X); Code will override with 0x%X and continue.",
+ io_pvalx4, X4_MAX, X4_MAX);
+ io_pvalx4 = X4_MAX;
+ }
+
+ if(io_nvalx4 > X4_MAX)
+ {
+ FAPI_ERR("I/O OMI Tx Zcal Nval(0x%X) > Max Allowed(0x%X); Code will override with 0x%X and continue.",
+ io_nvalx4, X4_MAX, X4_MAX);
+ io_nvalx4 = X4_MAX;
+ }
+
+ if(io_pvalx4 < X4_MIN)
+ {
+ FAPI_ERR("I/O OMI Tx Zcal Pval(0x%X) < Min Allowed(0x%X); Code will override with 0x%X and continue.",
+ io_pvalx4, X4_MIN, X4_MIN);
+ io_pvalx4 = X4_MIN;
+ }
+
+ if(io_nvalx4 < X4_MIN)
+ {
+ FAPI_ERR("I/O OMI Tx Zcal Nval(0x%X) < Min Allowed(0x%X); Code will override with 0x%X and continue.",
+ io_nvalx4, X4_MIN, X4_MIN);
+ io_nvalx4 = X4_MIN;
+ }
+
+ FAPI_IMP("tx_zcal_verify_results: I/O OMI Exiting");
+ return fapi2::current_err;
+}
+
+/**
+ * @brief Tx Z Impedance Calibration State Machine
+ * @param[in] i_tgt FAPI2 Target
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode tx_run_zcal(const OMIC_TGT i_tgt)
+{
+ const uint64_t DLY_20MS = 20000000;
+ const uint64_t DLY_10US = 10000;
+ const uint64_t DLY_10MIL_CYCLES = 10000000;
+ const uint64_t DLY_1MIL_CYCLES = 1000000;
+ const uint32_t TIMEOUT = 200;
+ const uint8_t GRP0 = 0;
+ const uint8_t LN0 = 0;
+ uint32_t l_count = 0;
+ uint64_t l_data = 0;
+ uint8_t l_is_sim = 0;
+
+ FAPI_IMP("tx_run_zcal: I/O OMI Entering");
+
+ ///////////////////////////////////////////////////////////////////////////
+ /// Simulation Speed Up
+ ///////////////////////////////////////////////////////////////////////////
+ FAPI_TRY(FAPI_ATTR_GET(fapi2::ATTR_IS_SIMULATION, fapi2::Target<fapi2::TARGET_TYPE_SYSTEM>(), l_is_sim));
+
+ if(l_is_sim)
+ {
+ // To speed up simulation, xbus_unit model + pie driver
+ // without these settings: 50 million cycles
+ // with these settings: 13 million cycles
+ io::set(OPT_TX_ZCAL_SM_MIN_VAL, 50, l_data);
+ io::set(OPT_TX_ZCAL_SM_MAX_VAL, 52, l_data);
+ FAPI_TRY(io::write(OPT_TX_IMPCAL_SWO2_PB, i_tgt, GRP0, LN0, l_data));
+ }
+
+ // Request to start Tx Impedance Calibration
+ // The Done bit is read only pulse, must use pie driver or system model in sim
+ FAPI_TRY(io::rmw(OPT_TX_ZCAL_REQ, i_tgt, GRP0, LN0, 1));
+
+ // Delay before we start polling. 20ms was use from past p8 learning
+ FAPI_TRY(fapi2::delay(DLY_20MS, DLY_10MIL_CYCLES));
+
+ // Poll Until Tx Impedance Calibration is done or errors out
+ FAPI_TRY(io::read(OPT_TX_IMPCAL_PB, i_tgt, GRP0, LN0, l_data));
+
+ while((++l_count < TIMEOUT) &&
+ !(io::get(OPT_TX_ZCAL_DONE, l_data) || io::get(EDIP_TX_ZCAL_ERROR, l_data)))
+ {
+ FAPI_DBG("tx_run_zcal: I/O OMI Tx Zcal Poll, Count(%d/%d).", l_count, TIMEOUT);
+
+ // Delay for 10us between polls for a total of 22ms.
+ FAPI_TRY(fapi2::delay(DLY_10US, DLY_1MIL_CYCLES));
+
+ FAPI_TRY(io::read(OPT_TX_IMPCAL_PB, i_tgt, GRP0, LN0, l_data));
+ }
+
+ // Check for Zcal Done
+ if(io::get(OPT_TX_ZCAL_DONE, l_data) == 1)
+ {
+ FAPI_DBG("I/O OMI Tx Zcal Poll Completed(%d/%d).", l_count, TIMEOUT);
+ }
+
+ // Check for Zcal Error
+ if(io::get(OPT_TX_ZCAL_ERROR, l_data) == 1)
+ {
+ FAPI_ERR("I/O OMI Tx Z Calibration Error");
+ }
+
+ // Check for Zcal Timeout
+ if(l_count >= TIMEOUT)
+ {
+ FAPI_ERR("I/O OMI Tx Z Calibration Timeout: Loops(%d)", l_count);
+ }
+
+fapi_try_exit:
+ FAPI_IMP("tx_run_zcal: I/O OMI Exiting");
+ return fapi2::current_err;
+}
+
+/**
+ * @brief Tx Z Impedance Calibration Apply Segments. The results of the Tx Impedance
+ * calibration are applied with accounting for margining ,FFE Precursor, and FFE Postcursor.
+ * @param[in] i_tgt FAPI2 Target
+ * @param[in] i_pvalx4 Tx Zcal P-value X4
+ * @param[in] i_nvalx4 Tx Zcal N-value X4
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode tx_zcal_apply(const OMIC_TGT i_tgt, const uint32_t i_pvalx4, const uint32_t i_nvalx4)
+{
+ FAPI_IMP("tx_zcal_apply: I/O OPT OMI Entering");
+ const uint8_t GRP0 = 0;
+ const uint8_t LN0 = 0;
+ const uint8_t PRE_WIDTH = 5;
+ const uint8_t POST_WIDTH = 7;
+ const uint8_t MAIN_WIDTH = 7;
+ const uint32_t PRECURSOR_X2_MAX = ( 4 * 2) + (1); // 18
+ const uint32_t POSTCURSOR_X2_MAX = ( 6 * 2) + (1); // 26
+ const uint32_t MARGIN_X2_MAX = ( 8 * 2) + (0); // 32
+ const uint32_t MAIN_X2_MAX = ( 6 * 2) + (1); // 26
+ const uint32_t TOTAL_X2_MAX = PRECURSOR_X2_MAX +
+ POSTCURSOR_X2_MAX +
+ (MARGIN_X2_MAX * 2) +
+ MAIN_X2_MAX;
+
+ uint8_t margin_ratio = 0;
+ uint8_t ffe_pre_coef = 0;
+ uint8_t ffe_post_coef = 0;
+ uint32_t margin_sel = 0;
+ uint32_t p_pre_sel_x2 = 0;
+ uint32_t n_pre_sel_x2 = 0;
+ uint32_t p_post_sel_x2 = 0;
+ uint32_t n_post_sel_x2 = 0;
+ uint32_t margin_pu_sel_x2 = 0;
+ uint32_t margin_pd_sel_x2 = 0;
+
+ uint32_t pvalx2 = i_pvalx4 / 2;
+ uint32_t nvalx2 = i_nvalx4 / 2;
+
+ uint32_t p_pre_en_x2 = PRECURSOR_X2_MAX;
+ uint32_t p_post_en_x2 = POSTCURSOR_X2_MAX;
+ uint32_t p_margin_pu_en_x2 = MARGIN_X2_MAX;
+ uint32_t p_margin_pd_en_x2 = MARGIN_X2_MAX;
+ uint32_t p_main_en_x2 = MAIN_X2_MAX;
+ int pvalx2_int = (int)pvalx2 - (int)TOTAL_X2_MAX;
+
+ uint32_t n_pre_en_x2 = PRECURSOR_X2_MAX;
+ uint32_t n_post_en_x2 = POSTCURSOR_X2_MAX;
+ uint32_t n_margin_pu_en_x2 = MARGIN_X2_MAX;
+ uint32_t n_margin_pd_en_x2 = MARGIN_X2_MAX;
+ uint32_t n_main_en_x2 = MAIN_X2_MAX;
+ int nvalx2_int = (int)nvalx2 - (int)TOTAL_X2_MAX;
+
+ // During normal operation we will not use margining :: min(0, 0%) max(0.5, 50%)
+ FAPI_TRY(FAPI_ATTR_GET(fapi2::ATTR_IO_OMI_TX_MARGIN_RATIO, i_tgt, margin_ratio));
+
+ // FFE Precursor Tap Weight :: min(0.0, 0%) max(0.115, 11.5%)
+ FAPI_TRY(FAPI_ATTR_GET(fapi2::ATTR_IO_OMI_TX_FFE_PRECURSOR, i_tgt, ffe_pre_coef));
+
+ // FFE Postcursor Tap Weight :: min(0.0, 0%) max(0.2578, 25.8%)
+ FAPI_TRY(FAPI_ATTR_GET(fapi2::ATTR_IO_OMI_TX_FFE_POSTCURSOR, i_tgt, ffe_post_coef));
+
+
+ // We use the X2 here, since the LSB bit is a 1/2
+ p_pre_sel_x2 = (pvalx2 * ffe_pre_coef) / 128;
+ n_pre_sel_x2 = (nvalx2 * ffe_pre_coef) / 128;
+
+ // We use the X2 here, since the LSB bit is a 1/2
+ p_post_sel_x2 = (pvalx2 * ffe_post_coef) / 128;
+ n_post_sel_x2 = (nvalx2 * ffe_post_coef) / 128;
+
+ margin_pu_sel_x2 = (pvalx2 * margin_ratio) / (128 * 2);
+ margin_pd_sel_x2 = (nvalx2 * margin_ratio) / (128 * 2);
+
+ // Work on Pvalue
+ if(pvalx2_int % 2) // Check if we need to add a half segment (2R)
+ {
+ --p_main_en_x2;
+ ++pvalx2_int;
+ }
+
+ while(pvalx2_int < 0)
+ {
+ if(p_main_en_x2 > 1)
+ {
+ p_main_en_x2 -= 2;
+ }
+ else if((p_margin_pu_en_x2 + p_margin_pd_en_x2) > 0)
+ {
+ if(p_margin_pu_en_x2 == p_margin_pd_en_x2)
+ {
+ p_margin_pd_en_x2 -= 2;
+ }
+ else
+ {
+ p_margin_pu_en_x2 -= 2;
+ }
+
+ }
+
+ pvalx2_int += 2; // Add a full segment
+ }
+
+ // Work on Nvalue
+ if(nvalx2_int % 2) // Check if we need to add a half segment (2R)
+ {
+ --n_main_en_x2;
+ ++nvalx2_int;
+ }
+
+ while(nvalx2_int < 0)
+ {
+ if(n_main_en_x2 > 1)
+ {
+ n_main_en_x2 -= 2;
+ }
+ else if((n_margin_pu_en_x2 + n_margin_pd_en_x2) > 0)
+ {
+ if(n_margin_pu_en_x2 == n_margin_pd_en_x2)
+ {
+ n_margin_pd_en_x2 -= 2;
+ }
+ else
+ {
+ n_margin_pu_en_x2 -= 2;
+ }
+ }
+
+ nvalx2_int += 2; // Add a full segment
+ }
+
+ margin_sel =
+ toTherm((margin_pu_sel_x2 + 1) / 2) & toTherm((margin_pd_sel_x2 + 1) / 2) &
+ toTherm((p_margin_pu_en_x2 + 1) / 2) & toTherm((n_margin_pu_en_x2 + 1) / 2) &
+ toTherm((p_margin_pd_en_x2 + 1) / 2) & toTherm((n_margin_pd_en_x2 + 1) / 2);
+
+
+ // Setting Pre Cursor Values
+ FAPI_TRY(io::rmw(OPT_TX_PSEG_PRE_EN , i_tgt, GRP0, LN0, toThermWithHalf(p_pre_en_x2 , PRE_WIDTH)));
+ FAPI_TRY(io::rmw(OPT_TX_PSEG_PRE_SEL, i_tgt, GRP0, LN0, toThermWithHalf(p_pre_sel_x2, PRE_WIDTH)));
+ FAPI_TRY(io::rmw(OPT_TX_NSEG_PRE_EN , i_tgt, GRP0, LN0, toThermWithHalf(n_pre_en_x2 , PRE_WIDTH)));
+ FAPI_TRY(io::rmw(OPT_TX_NSEG_PRE_SEL, i_tgt, GRP0, LN0, toThermWithHalf(n_pre_sel_x2, PRE_WIDTH)));
+ FAPI_TRY(io::rmw(OPT_TX_PSEG_POST_EN , i_tgt, GRP0, LN0, toThermWithHalf(p_post_en_x2 , POST_WIDTH)));
+ FAPI_TRY(io::rmw(OPT_TX_PSEG_POST_SEL, i_tgt, GRP0, LN0, toThermWithHalf(p_post_sel_x2, POST_WIDTH)));
+ FAPI_TRY(io::rmw(OPT_TX_NSEG_POST_EN , i_tgt, GRP0, LN0, toThermWithHalf(n_post_en_x2 , POST_WIDTH)));
+ FAPI_TRY(io::rmw(OPT_TX_NSEG_POST_SEL, i_tgt, GRP0, LN0, toThermWithHalf(n_post_sel_x2, POST_WIDTH)));
+
+ // Setting Post Cursor Values
+ FAPI_TRY(io::rmw(OPT_TX_PSEG_MARGINPD_EN, i_tgt, GRP0, LN0, toTherm((p_margin_pd_en_x2 + 1) / 2)));
+ FAPI_TRY(io::rmw(OPT_TX_PSEG_MARGINPU_EN, i_tgt, GRP0, LN0, toTherm((p_margin_pu_en_x2 + 1) / 2)));
+ FAPI_TRY(io::rmw(OPT_TX_NSEG_MARGINPD_EN, i_tgt, GRP0, LN0, toTherm((n_margin_pd_en_x2 + 1) / 2)));
+ FAPI_TRY(io::rmw(OPT_TX_NSEG_MARGINPU_EN, i_tgt, GRP0, LN0, toTherm((n_margin_pu_en_x2 + 1) / 2)));
+ FAPI_TRY(io::rmw(OPT_TX_MARGINPD_SEL, i_tgt, GRP0, LN0, margin_sel));
+ FAPI_TRY(io::rmw(OPT_TX_MARGINPU_SEL, i_tgt, GRP0, LN0, margin_sel));
+
+ // Setting Main Values
+ FAPI_TRY(io::rmw(OPT_TX_PSEG_MAIN_EN, i_tgt, GRP0, LN0, toThermWithHalf(p_main_en_x2, MAIN_WIDTH)));
+ FAPI_TRY(io::rmw(OPT_TX_NSEG_MAIN_EN, i_tgt, GRP0, LN0, toThermWithHalf(n_main_en_x2, MAIN_WIDTH)));
+
+fapi_try_exit:
+ FAPI_IMP("tx_zcal_apply: I/O OMI Exiting");
+ return fapi2::current_err;
+}
+
+/**
+ * @brief Tx Z Impedance Calibration
+ * @param[in] i_tgt FAPI2 Target
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode tx_set_zcal_ffe(const OMIC_TGT i_tgt)
+{
+ FAPI_IMP("tx_set_zcal_ffe: I/O OMI Entering");
+
+ const uint8_t GRP0 = 0;
+ const uint8_t LN0 = 0;
+ const uint32_t DEFAULT_SEGMENTS = 25 * 4; // Nominal 25 Segments 1R * 4 = 4R
+ uint32_t pvalx4 = DEFAULT_SEGMENTS;
+ uint32_t nvalx4 = DEFAULT_SEGMENTS;
+ uint64_t data = 0;
+
+
+ FAPI_TRY(io::read(OPT_TX_IMPCAL_PB, i_tgt, GRP0, LN0, data));
+
+ if(io::get(OPT_TX_ZCAL_DONE, data) == 1)
+ {
+ FAPI_DBG("Using zCal Results.");
+
+ FAPI_TRY(io::read(OPT_TX_ZCAL_P, i_tgt, GRP0, LN0, data));
+
+ // We need to convert the 8R value to a 4R equivalent
+ pvalx4 = io::get(OPT_TX_ZCAL_P, data) / 2;
+
+ FAPI_TRY(io::read(OPT_TX_ZCAL_N, i_tgt, GRP0, LN0, data));
+
+ // We need to convert the 8R value to a 4R equivalent
+ nvalx4 = io::get(OPT_TX_ZCAL_N, data) / 2;
+
+
+ FAPI_TRY(tx_zcal_verify_results(pvalx4, nvalx4), "Tx Z Cal Verify Results Failed");
+ }
+ else
+ {
+ FAPI_INF("Warning: P9 IO OMI Using Default Tx Zcal Segments.");
+ }
+
+ // Convert the results of the zCal to actual segments.
+ FAPI_TRY(tx_zcal_apply(i_tgt, pvalx4, nvalx4), "Tx Zcal Apply Segments Failed");
+
+fapi_try_exit:
+ FAPI_IMP("tx_set_zcal_ffe: I/O Obus Exiting");
+ return fapi2::current_err;
+}
+
+
+/**
+ * @brief Rx Dc Calibration
+ * @param[in] i_tgt FAPI2 Target
+ * @param[in] i_lane_vector Lane Vector
+ * @param[in] i_data Data to be set to rx_run_dccal
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode set_rx_run_dccal(const OMIC_TGT i_tgt, const uint32_t i_lane_vector, const uint8_t i_data)
+{
+ FAPI_IMP("set_rx_run_dccal: I/O OMI Entering");
+ const uint8_t GRP0 = 0;
+ const uint8_t LANES = 24;
+
+ // Start DC Calibrate, this iniates the rx dccal state machine
+ for(uint8_t lane = 0; lane < LANES; ++lane)
+ {
+ if(((0x1 << lane) & i_lane_vector) != 0)
+ {
+ FAPI_TRY(io::rmw(OPT_RX_RUN_DCCAL, i_tgt, GRP0, lane, i_data));
+ }
+ }
+
+ FAPI_DBG("I/O OMI Set Rx Run Dccal Complete.");
+fapi_try_exit:
+ FAPI_IMP("set_rx_run_dccal: I/O OMI Exiting");
+ return fapi2::current_err;
+}
+
+
+
+
+
+/**
+ * @brief Rx Dc Calibration
+ * @param[in] i_tgt FAPI2 Target
+ * @param[in] i_lane_vector Lane Vector
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode rx_poll_dccal_done(const OMIC_TGT i_tgt, const uint32_t i_lane_vector)
+{
+ FAPI_IMP("rx_poll_dccal_done: I/O OMI Entering");
+ const uint8_t TIMEOUT = 200;
+ const uint64_t DLY_1MS = 1000000;
+ const uint64_t DLY_1MIL_CYCLES = 1000000;
+ const uint32_t MAX_LANES = 24;
+ const uint8_t GRP0 = 0;
+ uint8_t poll_count = 0;
+ uint64_t data = 0;
+
+ ////////////////////////////////////////////////////////////////////////////
+ /// Poll Rx Dccal
+ ////////////////////////////////////////////////////////////////////////////
+
+ FAPI_TRY(fapi2::delay(DLY_1MS, DLY_1MIL_CYCLES));
+
+
+ for(uint32_t lane = 0; lane < MAX_LANES; ++lane)
+ {
+ if(((0x1 << lane) & i_lane_vector) == 0)
+ {
+ continue;
+ }
+
+ for(poll_count = 0; poll_count < TIMEOUT; ++poll_count)
+ {
+ FAPI_TRY(io::read(OPT_RX_DCCAL_DONE, i_tgt, GRP0, lane, data));
+
+ if(io::get(OPT_RX_DCCAL_DONE, data) == 1)
+ {
+ FAPI_DBG("I/O OMI Rx Dccal Complete: Lane(%d) Polling(%d/%d) ",
+ lane, poll_count, TIMEOUT);
+ break;
+ }
+
+ FAPI_TRY(fapi2::delay(DLY_1MS, DLY_1MIL_CYCLES));
+ }
+
+ FAPI_ASSERT((io::get(OPT_RX_DCCAL_DONE, data) == 1),
+ fapi2::IO_OMI_RX_DCCAL_TIMEOUT().set_TARGET(i_tgt),
+ "Rx Dccal Timeout: Loops(%d) delay(%d ns, %d cycles)",
+ poll_count, DLY_1MS, DLY_1MIL_CYCLES);
+
+ }
+
+ FAPI_DBG("I/O OPT OMI Rx Poll Dccal Successful.");
+
+fapi_try_exit:
+ FAPI_IMP("rx_poll_dccal_done: I/O OMI Exiting");
+ return fapi2::current_err;
+}
+
+/**
+ * @brief Set Rx B Bank Controls
+ * @param[in] i_tgt FAPI2 Target
+ * @param[in] i_lane_vector Lane Vector
+ * @param[in] i_data Data
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode set_rx_b_bank_controls(const OMIC_TGT i_tgt, const uint32_t i_lane_vector, const uint8_t i_data)
+{
+ FAPI_IMP("set_rx_b_bank_controls: I/O OMI Entering");
+ const uint8_t GRP0 = 0;
+ const uint8_t LANES = 24;
+
+ // Start DC Calibrate, this iniates the rx dccal state machine
+ for(uint8_t lane = 0; lane < LANES; ++lane)
+ {
+ if(((0x1 << lane) & i_lane_vector) != 0)
+ {
+ FAPI_TRY(io::rmw(OPT_RX_B_BANK_CONTROLS, i_tgt, GRP0, lane, i_data));
+ }
+ }
+
+ FAPI_DBG("I/O OMI Rx Dccal Complete.");
+fapi_try_exit:
+ FAPI_IMP("set_rx_b_bank_controls: I/O OMI Exiting");
+ return fapi2::current_err;
+}
+
+/**
+ * @brief A I/O Obus Procedure that powers up the unit
+ * on every instance of the OMI.
+ * @param[in] i_tgt FAPI2 Target
+ * @param[in] i_lave_vector Lanve Vector
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode omi_powerup(const OMIC_TGT i_tgt, const uint32_t i_lane_vector)
+{
+ FAPI_IMP("omi_powerup: I/O OMI Entering");
+
+ const uint8_t GRP0 = 0;
+ const uint8_t LANES = 24;
+
+ // Power up Per-Group Registers
+ FAPI_TRY(io::rmw(OPT_RX_CLKDIST_PDWN, i_tgt, GRP0, 0, 0));
+ FAPI_TRY(io::rmw(OPT_TX_CLKDIST_PDWN, i_tgt, GRP0, 0, 0));
+ FAPI_TRY(io::rmw(OPT_RX_IREF_PDWN_B, i_tgt, GRP0, 0, 1));
+ FAPI_TRY(io::rmw(OPT_RX_CTL_DATASM_CLKDIST_PDWN, i_tgt, GRP0, 0, 0));
+
+ // Power up Per-Lane Registers
+ for(uint8_t lane = 0; lane < LANES; ++lane)
+ {
+ if(((0x1 << lane) & i_lane_vector) != 0)
+ {
+ FAPI_TRY(io::rmw(OPT_RX_LANE_ANA_PDWN, i_tgt, GRP0, lane, 0));
+ FAPI_TRY(io::rmw(OPT_RX_LANE_DIG_PDWN, i_tgt, GRP0, lane, 0));
+ FAPI_TRY(io::rmw(OPT_TX_LANE_PDWN , i_tgt, GRP0, lane, 0));
+ }
+ }
+
+fapi_try_exit:
+ FAPI_IMP("omi_powerup: I/O Obus Exiting");
+ return fapi2::current_err;
+}
+
+/**
+ * @brief A I/O Set Obus Flywheel
+ * on every instance of the OMI.
+ * @param[in] i_tgt FAPI2 Target
+ * @param[in] i_lave_vector Lanve Vector
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode set_omi_flywheel_off(const OMIC_TGT i_tgt, const uint32_t i_lane_vector, const uint8_t i_data)
+{
+ FAPI_IMP("set_obus_flywheel_off: I/O OMI Entering");
+ const uint8_t GRP0 = 0;
+ const uint8_t LANES = 24;
+
+ // Power up Per-Lane Registers
+ for(uint8_t lane = 0; lane < LANES; ++lane)
+ {
+ if(((0x1 << lane) & i_lane_vector) != 0)
+ {
+ FAPI_TRY(io::rmw(OPT_RX_PR_FW_OFF, i_tgt, GRP0, lane, i_data));
+ }
+ }
+
+fapi_try_exit:
+ FAPI_IMP("set_omi_flywheel_off: I/O OMI Exiting");
+ return fapi2::current_err;
+}
+
+/**
+ * @brief A I/O Set Obus Flywheel
+ * on every instance of the OMI.
+ * @param[in] i_tgt FAPI2 Target
+ * @param[in] i_lave_vector Lanve Vector
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode set_omi_pr_edge_track_cntl(const OMIC_TGT i_tgt, const uint32_t i_lane_vector,
+ const uint8_t i_data)
+{
+ FAPI_IMP("set_obus_edge_track_cntl: I/O OMI Entering");
+ const uint8_t GRP0 = 0;
+ const uint8_t LANES = 24;
+
+ // Power up Per-Lane Registers
+ for(uint8_t lane = 0; lane < LANES; ++lane)
+ {
+ if(((0x1 << lane) & i_lane_vector) != 0)
+ {
+ FAPI_TRY(io::rmw(OPT_RX_PR_EDGE_TRACK_CNTL, i_tgt, GRP0, lane, i_data));
+ }
+ }
+
+fapi_try_exit:
+ FAPI_IMP("set_obus_pr_edge_track_cntl: I/O OMI Exiting");
+ return fapi2::current_err;
+}
+
+/**
+ * @brief A I/O Set RX AC Coupled
+ * @param[in] i_tgt FAPI2 Target
+ * @param[in] i_data Data to be set
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode set_omi_rx_ac_coupled(const OMIC_TGT i_tgt, const uint8_t i_data)
+{
+ FAPI_IMP("set_omi_rx_ac_coupled: I/O OMI Entering");
+ const uint8_t GRP0 = 0;
+ const uint8_t LN0 = 0;
+
+ // Per Group Register
+ FAPI_TRY(io::rmw(OPT_RX_AC_COUPLED, i_tgt, GRP0, LN0, i_data));
+
+fapi_try_exit:
+ FAPI_IMP("set_omi_rx_ac_coupled: I/O OMI Exiting");
+ return fapi2::current_err;
+}
+/**
+ * @brief De-assert lane_disable
+ * @param[in] i_tgt FAPI2 Target
+ * @param[in] i_lave_vector Lanve Vector
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode p9_omi_lane_enable(const OMIC_TGT i_tgt, const uint32_t i_lane_vector)
+{
+ FAPI_IMP("p9_omi_lane_enable: I/O OMI Entering");
+ const uint8_t GRP0 = 0;
+ const uint8_t LANES = 24;
+
+ // Power up Per-Lane Registers
+ for(uint8_t lane = 0; lane < LANES; ++lane)
+ {
+ if(((0x1 << lane) & i_lane_vector) != 0)
+ {
+ FAPI_TRY(io::rmw(OPT_RX_LANE_DISABLED, i_tgt, GRP0, lane, 0x0));
+ }
+ }
+
+fapi_try_exit:
+ FAPI_IMP("p9_omi_lane_enable: I/O OMI Exiting");
+ return fapi2::current_err;
+}
+
+
+/**
+ * @brief Halt Obus PPE if HW446279 is enabled
+ * @param[in] i_tgt FAPI2 Target
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode p9_omi_halt_ppe(const OMIC_TGT i_tgt)
+{
+ FAPI_IMP("p9_omi_halt_ppe: I/O OMI Entering");
+ const uint64_t OMI_PPE_XCR_ADDR = 0x0000000007011050ull;
+ const uint64_t HALT = 0x1000000000000000ull; // xcr cmd=001
+ fapi2::buffer<uint64_t> l_xcr_data(HALT);
+
+ fapi2::ATTR_CHIP_EC_FEATURE_P9C_LOGIC_ONLY_Type l_p9c;
+
+ auto l_chip = i_tgt.getParent<fapi2::TARGET_TYPE_PROC_CHIP>();
+ FAPI_TRY(FAPI_ATTR_GET(fapi2::ATTR_CHIP_EC_FEATURE_P9C_LOGIC_ONLY,
+ l_chip,
+ l_p9c));
+
+ if(l_p9c)
+ {
+ FAPI_TRY(fapi2::putScom(i_tgt,
+ OMI_PPE_XCR_ADDR,
+ l_xcr_data),
+ "Resume From Halt Failed.");
+ }
+
+fapi_try_exit:
+ FAPI_IMP("p9_omi_halt_ppe: I/O OMI Exiting");
+ return fapi2::current_err;
+}
+
+} // end namespace P9A_IO_OMI_DCCAL
+
+using namespace P9A_IO_OMI_DCCAL;
+
+/**
+ * @brief A I/O Obus Procedure that runs Rx Dccal and Tx Z Impedance calibration
+ * on every instance of the OMI.
+ * @param[in] i_tgt FAPI2 Target
+ * @param[in] i_lave_vector Lanve Vector
+ * @retval ReturnCode
+ */
+fapi2::ReturnCode p9a_io_omi_dccal(const OMIC_TGT i_tgt, const uint32_t i_lane_vector)
+{
+ FAPI_IMP("p9a_io_omi_dccal: I/O OMI Entering");
+ uint8_t dccal_flags = 0x0;
+ char l_tgtStr[fapi2::MAX_ECMD_STRING_LEN];
+ fapi2::toString(i_tgt, l_tgtStr, fapi2::MAX_ECMD_STRING_LEN);
+
+ FAPI_DBG("I/O OMI Dccal %s, Lane Vector(0x%X)", l_tgtStr, i_lane_vector);
+
+ FAPI_TRY(FAPI_ATTR_SET(fapi2::ATTR_IO_OMI_DCCAL_FLAGS, i_tgt, dccal_flags));
+
+ FAPI_TRY(p9_omi_halt_ppe(i_tgt));
+
+ // Power up Clock Distribution & Lanes
+ FAPI_TRY(omi_powerup(i_tgt, i_lane_vector));
+
+ // SW442174 :: Set RX_AC_COUPLED = 1
+ // - This must be done before dccal to get accurate dccal values
+ FAPI_TRY(set_omi_rx_ac_coupled(i_tgt, 1));
+
+ // Enable Disabled Lanes
+ FAPI_TRY(p9_omi_lane_enable(i_tgt, i_lane_vector));
+
+ // Run Tx Zcal State Machine
+ FAPI_TRY(tx_run_zcal(i_tgt), "I/O Obus Tx Run Z-Cal Failed");
+ FAPI_DBG("I/O Obus Tx Zcal State Machine Successful.");
+
+ // Set that the state machine successfully finished.
+ dccal_flags |= fapi2::ENUM_ATTR_IO_OMI_DCCAL_FLAGS_TX;
+ FAPI_TRY(FAPI_ATTR_SET(fapi2::ATTR_IO_OMI_DCCAL_FLAGS, i_tgt, dccal_flags));
+
+ // Apply Tx FFE Values
+ FAPI_TRY(tx_set_zcal_ffe(i_tgt), "I/O Obus Tx Set Z-Cal FFE Failed");
+ FAPI_DBG("I/O Obus Tx Zcal Successful.");
+
+ // Turn Phase Rotator Fly Wheel Off
+ FAPI_TRY(set_omi_flywheel_off(i_tgt, i_lane_vector, 1));
+
+ // Run Rx Dc Calibration
+ FAPI_TRY(set_rx_run_dccal(i_tgt, i_lane_vector, 1), "Starting Rx Dccal Failed");
+ FAPI_TRY(rx_poll_dccal_done(i_tgt, i_lane_vector), "I/O Obus Rx Dccal Poll Failed");
+ FAPI_TRY(set_rx_run_dccal(i_tgt, i_lane_vector, 0), "Stopping Rx Dccal Failed");
+ FAPI_TRY(set_rx_b_bank_controls(i_tgt, i_lane_vector, 0), "Setting Rx B Bank Controls Failed.");
+ dccal_flags |= fapi2::ENUM_ATTR_IO_OMI_DCCAL_FLAGS_RX;
+ FAPI_TRY(FAPI_ATTR_SET(fapi2::ATTR_IO_OMI_DCCAL_FLAGS, i_tgt, dccal_flags));
+ FAPI_DBG("I/O OMI Rx Dccal Successful.");
+
+ // Turn Phase Rotator Fly Wheel On
+ FAPI_TRY(set_omi_flywheel_off(i_tgt, i_lane_vector, 0));
+ FAPI_TRY(set_omi_pr_edge_track_cntl(i_tgt, i_lane_vector, 0));
+
+fapi_try_exit:
+ FAPI_IMP("p9_io_omi_dccal: I/O OMI Exiting");
+ return fapi2::current_err;
+}
diff --git a/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.H b/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.H
new file mode 100644
index 000000000..ec6547115
--- /dev/null
+++ b/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.H
@@ -0,0 +1,65 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.H $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2015,2019 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* Licensed under the Apache License, Version 2.0 (the "License"); */
+/* you may not use this file except in compliance with the License. */
+/* You may obtain a copy of the License at */
+/* */
+/* http://www.apache.org/licenses/LICENSE-2.0 */
+/* */
+/* Unless required by applicable law or agreed to in writing, software */
+/* distributed under the License is distributed on an "AS IS" BASIS, */
+/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */
+/* implied. See the License for the specific language governing */
+/* permissions and limitations under the License. */
+/* */
+/* IBM_PROLOG_END_TAG */
+///
+/// @file p9a_io_omi_dccal.H
+/// @brief Run Dccal on the link.
+///-----------------------------------------------------------------------------
+/// *HWP HWP Owner : Chris Steffen <cwsteffen@us.ibm.com>
+/// *HWP HWP Backup Owner : Gary Peterson <garyp@us.ibm.com>
+/// *HWP FW Owner : Jamie Knight <rjknight@us.ibm.com>
+/// *HWP Team : IO
+/// *HWP Level : 3
+/// *HWP Consumed by : FSP:HB
+///-----------------------------------------------------------------------------
+
+#ifndef _P9A_IO_OMI_DCCAL_H
+#define _P9A_IO_OMI_DCCAL_H
+
+//-----------------------------------------------------------------------------
+// fapi2 Includes
+//-----------------------------------------------------------------------------
+#include <fapi2.H>
+
+//typedef fapi2::Target<fapi2::TARGET_TYPE_OMI> OMI_TGT;
+typedef fapi2::Target<fapi2::TARGET_TYPE_OMIC> OMIC_TGT;
+
+
+typedef fapi2::ReturnCode (*p9a_io_omi_dccal_FP_t)( const OMIC_TGT, const uint32_t );
+
+extern "C"
+{
+
+ /**
+ * @brief A I/O Obus Procedure that runs Rx Dccal and Tx Z Impedance Calibration
+ * on every group of the OMI.
+ * @param[in] i_tgt FAPI2 Target
+ * @param[in] i_lane_vector Lane Vector; to train all 24 lanes(0x00FFFFFF)
+ * @retval ReturnCode
+ */
+ fapi2::ReturnCode p9a_io_omi_dccal(const OMIC_TGT i_tgt, const uint32_t i_lane_vector);
+
+} // extern "C"
+
+#endif // _P9A_IO_OMI_DCCAL_H
diff --git a/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.mk b/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.mk
new file mode 100644
index 000000000..c16272972
--- /dev/null
+++ b/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.mk
@@ -0,0 +1,27 @@
+# IBM_PROLOG_BEGIN_TAG
+# This is an automatically generated prolog.
+#
+# $Source: src/import/chips/p9/procedures/hwp/io/p9a_io_omi_dccal.mk $
+#
+# OpenPOWER HostBoot Project
+#
+# Contributors Listed Below - COPYRIGHT 2015,2019
+# [+] International Business Machines Corp.
+#
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+# http://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
+# implied. See the License for the specific language governing
+# permissions and limitations under the License.
+#
+# IBM_PROLOG_END_TAG
+PROCEDURE=p9a_io_omi_dccal
+lib$(PROCEDURE)_DEPLIBS+=p9_io_common
+$(call BUILD_PROCEDURE)
diff --git a/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.C b/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.C
new file mode 100644
index 000000000..b73642b5f
--- /dev/null
+++ b/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.C
@@ -0,0 +1,113 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.C $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2015,2019 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* Licensed under the Apache License, Version 2.0 (the "License"); */
+/* you may not use this file except in compliance with the License. */
+/* You may obtain a copy of the License at */
+/* */
+/* http://www.apache.org/licenses/LICENSE-2.0 */
+/* */
+/* Unless required by applicable law or agreed to in writing, software */
+/* distributed under the License is distributed on an "AS IS" BASIS, */
+/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */
+/* implied. See the License for the specific language governing */
+/* permissions and limitations under the License. */
+/* */
+/* IBM_PROLOG_END_TAG */
+///
+/// @file p9a_io_omi_scominit.C
+/// @brief Invoke OMI initfile
+///
+//----------------------------------------------------------------------------
+// *HWP HWP Owner : Chris Steffen <cwsteffen@us.ibm.com>
+// *HWP HWP Backup Owner: Gary Peterson <garyp@us.ibm.com>
+// *HWP FW Owner : Sumit Kumar <sumit_kumar@in.ibm.com>
+// *HWP Team : IO
+// *HWP Level : 3
+// *HWP Consumed by : FSP:HB
+//----------------------------------------------------------------------------
+//
+// @verbatim
+// High-level procedure flow:
+//
+// Invoke OMI scominit file.
+//
+// Procedure Prereq:
+// - System clocks are running.
+// @endverbatim
+//----------------------------------------------------------------------------
+
+
+//------------------------------------------------------------------------------
+// Includes
+//------------------------------------------------------------------------------
+#include <p9_io_scom.H>
+#include <p9_io_regs.H>
+#include <p9a_omi_io_scom.H>
+#include <p9a_io_omi_scominit.H>
+#include <p9_obus_scom_addresses.H>
+#include <p9a_mc_scom_addresses.H>
+#include <p9_obus_fir_utils.H>
+
+//------------------------------------------------------------------------------
+// Function definitions
+//------------------------------------------------------------------------------
+
+// HWP entry point, comments in header
+fapi2::ReturnCode p9a_io_omi_scominit(const fapi2::Target<fapi2::TARGET_TYPE_OMIC>& i_target)
+{
+ // mark HWP entry
+ FAPI_INF("p9a_io_omi_scominit: Entering...");
+ const uint8_t GROUP_00 = 0;
+ const uint8_t LANE_00 = 0;
+ const uint8_t SET_RESET = 1;
+ const uint8_t CLEAR_RESET = 0;
+ fapi2::ReturnCode rc = fapi2::FAPI2_RC_SUCCESS;
+
+ // get system target
+ const fapi2::Target<fapi2::TARGET_TYPE_SYSTEM> l_system_target;
+
+ // get a proc target
+ fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP> l_proc_target = i_target.getParent<fapi2::TARGET_TYPE_PROC_CHIP>();
+
+ // assert IO reset to power-up bus endpoint logic
+ FAPI_TRY(io::rmw(OPT_IORESET_HARD_BUS0, i_target, GROUP_00, LANE_00, SET_RESET));
+
+ // Bus Reset is relatively fast, only needing < a hundred cycles to allow the signal to propogate.
+ FAPI_TRY(fapi2::delay(10, 1000));
+
+ FAPI_TRY(io::rmw(OPT_IORESET_HARD_BUS0, i_target, GROUP_00, LANE_00, CLEAR_RESET));
+
+ FAPI_INF("Invoke FAPI procedure core: input_target");
+ FAPI_EXEC_HWP(rc, p9a_omi_io_scom, i_target, l_system_target, l_proc_target);
+
+ // configure FIR
+ {
+ FAPI_TRY(fapi2::putScom(i_target,
+ P9A_OMIC_FIR_ACTION0_REG,
+ OBUS_PHY_FIR_ACTION0),
+ "Error from putScom (P9A_OMIC_FIR_ACTION0_REG)");
+ FAPI_TRY(fapi2::putScom(i_target,
+ P9A_OMIC_FIR_ACTION1_REG,
+ OBUS_PHY_FIR_ACTION1),
+ "Error from putScom (P9A_OMIC_FIR_ACTION1_REG)");
+ FAPI_TRY(fapi2::putScom(i_target,
+ P9A_OMIC_FIR_MASK_REG,
+ OBUS_PHY_FIR_MASK),
+ "Error from putScom (P9A_OMIC_FIR_MASK_REG)");
+ }
+
+ // mark HWP exit
+ FAPI_INF("p9a_io_omi_scominit: ...Exiting");
+
+fapi_try_exit:
+ return fapi2::current_err;
+}
diff --git a/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.H b/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.H
new file mode 100644
index 000000000..0b2023add
--- /dev/null
+++ b/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.H
@@ -0,0 +1,76 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.H $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2015,2019 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* Licensed under the Apache License, Version 2.0 (the "License"); */
+/* you may not use this file except in compliance with the License. */
+/* You may obtain a copy of the License at */
+/* */
+/* http://www.apache.org/licenses/LICENSE-2.0 */
+/* */
+/* Unless required by applicable law or agreed to in writing, software */
+/* distributed under the License is distributed on an "AS IS" BASIS, */
+/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */
+/* implied. See the License for the specific language governing */
+/* permissions and limitations under the License. */
+/* */
+/* IBM_PROLOG_END_TAG */
+///
+/// @file p9a_io_omi_scominit.H
+/// @brief Invoke OMI initfile (FAPI)
+///
+//----------------------------------------------------------------------------
+// *HWP HWP Owner : Chris Steffen <cwsteffen@us.ibm.com>
+// *HWP HWP Backup Owner: Gary Peterson <garyp@us.ibm.com>
+// *HWP FW Owner : Sumit Kumar <sumit_kumar@in.ibm.com>
+// *HWP Team : IO
+// *HWP Level : 3
+// *HWP Consumed by : FSP:HB
+//----------------------------------------------------------------------------
+
+
+#ifndef P9A_IO_OMI_SCOMINIT_H_
+#define P9A_IO_OMI_SCOMINIT_H_
+
+//------------------------------------------------------------------------------
+// Includes
+//------------------------------------------------------------------------------
+#include <fapi2.H>
+
+//------------------------------------------------------------------------------
+// Structure definitions
+//------------------------------------------------------------------------------
+
+// function pointer typedef definition for HWP call support
+typedef fapi2::ReturnCode (*p9a_io_omi_scominit_FP_t)
+(const fapi2::Target<fapi2::TARGET_TYPE_OMIC>& i_target);
+
+extern "C" {
+
+//------------------------------------------------------------------------------
+// Function prototypes
+//------------------------------------------------------------------------------
+
+ /**
+ * @brief HWP that calls the OMI SCOM initfiles
+ *
+ * Should be called for all valid/connected OMIC endpoints
+ *
+ * @param[in] i_target Reference to OMIC chiplet target
+ * - p9a.omi.io.scom.initfile
+ *
+ * @return FAPI2_RC_SUCCESS on success, error otherwise
+ */
+ fapi2::ReturnCode p9a_io_omi_scominit(const fapi2::Target<fapi2::TARGET_TYPE_OMIC>& i_target);
+
+
+} // extern "C"
+
+#endif // P9A_IO_OMI_SCOMINIT_H_
diff --git a/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.mk b/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.mk
new file mode 100644
index 000000000..ac477861e
--- /dev/null
+++ b/src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.mk
@@ -0,0 +1,28 @@
+# IBM_PROLOG_BEGIN_TAG
+# This is an automatically generated prolog.
+#
+# $Source: src/import/chips/p9/procedures/hwp/io/p9a_io_omi_scominit.mk $
+#
+# OpenPOWER HostBoot Project
+#
+# Contributors Listed Below - COPYRIGHT 2015,2019
+# [+] International Business Machines Corp.
+#
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+# http://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
+# implied. See the License for the specific language governing
+# permissions and limitations under the License.
+#
+# IBM_PROLOG_END_TAG
+
+PROCEDURE=p9a_io_omi_scominit
+$(call ADD_MODULE_INCDIR,$(PROCEDURE),$(ROOTPATH)/chips/p9/procedures/hwp/nest)
+$(call BUILD_PROCEDURE)
diff --git a/src/import/chips/p9/procedures/xml/attribute_info/p9a_io_omi_attributes.xml b/src/import/chips/p9/procedures/xml/attribute_info/p9a_io_omi_attributes.xml
new file mode 100644
index 000000000..ae2de9e68
--- /dev/null
+++ b/src/import/chips/p9/procedures/xml/attribute_info/p9a_io_omi_attributes.xml
@@ -0,0 +1,146 @@
+<!-- IBM_PROLOG_BEGIN_TAG -->
+<!-- This is an automatically generated prolog. -->
+<!-- -->
+<!-- $Source: src/import/chips/p9/procedures/xml/attribute_info/p9a_io_omi_attributes.xml $ -->
+<!-- -->
+<!-- OpenPOWER HostBoot Project -->
+<!-- -->
+<!-- Contributors Listed Below - COPYRIGHT 2015,2019 -->
+<!-- [+] International Business Machines Corp. -->
+<!-- -->
+<!-- -->
+<!-- Licensed under the Apache License, Version 2.0 (the "License"); -->
+<!-- you may not use this file except in compliance with the License. -->
+<!-- You may obtain a copy of the License at -->
+<!-- -->
+<!-- http://www.apache.org/licenses/LICENSE-2.0 -->
+<!-- -->
+<!-- Unless required by applicable law or agreed to in writing, software -->
+<!-- distributed under the License is distributed on an "AS IS" BASIS, -->
+<!-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or -->
+<!-- implied. See the License for the specific language governing -->
+<!-- permissions and limitations under the License. -->
+<!-- -->
+<!-- IBM_PROLOG_END_TAG -->
+<attributes>
+<!-- ********************************************************************** -->
+<attribute>
+ <id>ATTR_IO_OMI_DCCAL_FLAGS</id>
+ <targetType>TARGET_TYPE_OMIC</targetType>
+ <description>
+ Flags to indicate if rx / tx dccal has been run.
+ </description>
+ <valueType>uint8</valueType>
+ <enum>
+ NONE = 0x0,
+ TX = 0x1,
+ RX = 0x2
+ </enum>
+ <writeable/>
+ <initToZero/>
+</attribute>
+<!-- ********************************************************************** -->
+<attribute>
+ <id>ATTR_IO_OMI_DEBUG</id>
+ <targetType>TARGET_TYPE_OMIC</targetType>
+ <description>
+ Indicate if debug data should be taken pre / post linktraining.
+ </description>
+ <valueType>uint8</valueType>
+ <enum>
+ FALSE = 0x0,
+ TRUE = 0x1
+ </enum>
+ <initToZero/>
+ <platInit/>
+ <overrideOnly/>
+</attribute>
+<!-- ********************************************************************** -->
+<attribute>
+ <id>ATTR_IO_OMI_MFG_CHK</id>
+ <targetType>TARGET_TYPE_OMIC</targetType>
+ <description>
+ Indicate if manufcaturing tests should be taken pre / post linktraining.
+ </description>
+ <valueType>uint8</valueType>
+ <enum>
+ FALSE = 0x0,
+ TRUE = 0x1
+ </enum>
+ <initToZero/>
+ <platInit/>
+</attribute>
+<!-- ********************************************************************** -->
+<attribute>
+ <id>ATTR_IO_OMI_MFG_MIN_EYE_WIDTH</id>
+ <targetType>TARGET_TYPE_OMIC</targetType>
+ <description>
+ Minimum eye width to allow passing through manufacturing.
+ </description>
+ <valueType>uint8</valueType>
+ <initToZero/>
+ <platInit/>
+</attribute>
+<!-- ********************************************************************** -->
+<attribute>
+ <id>ATTR_IO_OMI_TX_MARGIN_RATIO</id>
+ <targetType>TARGET_TYPE_OMIC</targetType>
+ <description>
+ Value to select amount of margin to be applied.
+ </description>
+ <valueType>uint8</valueType>
+ <initToZero/>
+ <platInit/>
+</attribute>
+<!-- ********************************************************************** -->
+<attribute>
+ <id>ATTR_IO_OMI_TX_FFE_PRECURSOR</id>
+ <targetType>TARGET_TYPE_OMIC</targetType>
+ <description>
+ Value to select amount of tx ffe precusor to apply.
+ </description>
+ <valueType>uint8</valueType>
+ <initToZero/>
+ <platInit/>
+</attribute>
+<!-- ********************************************************************** -->
+<attribute>
+ <id>ATTR_IO_OMI_TX_FFE_POSTCURSOR</id>
+ <targetType>TARGET_TYPE_OMIC</targetType>
+ <description>
+ Value to select amount of tx ffe postcusor to apply.
+ </description>
+ <valueType>uint8</valueType>
+ <initToZero/>
+ <platInit/>
+</attribute>
+<!-- ********************************************************************** -->
+<attribute>
+ <id>ATTR_IO_OMI_MFG_STRESS_PR_OFFSET_EVEN</id>
+ <targetType>TARGET_TYPE_PROC_CHIP</targetType>
+ <description>
+ This attribute provides an a way to stress the SMP Abus Even Lanes
+ in Manufacturing. By applying a phase rotator offset we can further
+ stress the phy. This is a 6-bit 2's complement value that would be
+ right justified in the 8 bit UINT attribute value.
+ </description>
+ <valueType>uint8</valueType>
+ <initToZero/>
+ <platInit/>
+</attribute>
+<!-- ********************************************************************** -->
+<attribute>
+ <id>ATTR_IO_OMI_MFG_STRESS_PR_OFFSET_ODD</id>
+ <targetType>TARGET_TYPE_PROC_CHIP</targetType>
+ <description>i
+ This attribute provides an a way to stress the SMP Abus Odd Lanes
+ in Manufacturing. By applying a phase rotator offset we can further
+ stress the phy. This is a 6-bit 2's complement value that would be
+ right justified in the 8 bit UINT attribute value.
+ </description>
+ <valueType>uint8</valueType>
+ <initToZero/>
+ <platInit/>
+</attribute>
+<!-- ********************************************************************** -->
+</attributes>
diff --git a/src/import/chips/p9/procedures/xml/error_info/p9a_io_omi_errors.xml b/src/import/chips/p9/procedures/xml/error_info/p9a_io_omi_errors.xml
new file mode 100755
index 000000000..129e93d06
--- /dev/null
+++ b/src/import/chips/p9/procedures/xml/error_info/p9a_io_omi_errors.xml
@@ -0,0 +1,56 @@
+<!-- IBM_PROLOG_BEGIN_TAG -->
+<!-- This is an automatically generated prolog. -->
+<!-- -->
+<!-- $Source: src/import/chips/p9/procedures/xml/error_info/p9a_io_omi_errors.xml $ -->
+<!-- -->
+<!-- OpenPOWER HostBoot Project -->
+<!-- -->
+<!-- Contributors Listed Below - COPYRIGHT 2015,2019 -->
+<!-- [+] International Business Machines Corp. -->
+<!-- -->
+<!-- -->
+<!-- Licensed under the Apache License, Version 2.0 (the "License"); -->
+<!-- you may not use this file except in compliance with the License. -->
+<!-- You may obtain a copy of the License at -->
+<!-- -->
+<!-- http://www.apache.org/licenses/LICENSE-2.0 -->
+<!-- -->
+<!-- Unless required by applicable law or agreed to in writing, software -->
+<!-- distributed under the License is distributed on an "AS IS" BASIS, -->
+<!-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or -->
+<!-- implied. See the License for the specific language governing -->
+<!-- permissions and limitations under the License. -->
+<!-- -->
+<!-- IBM_PROLOG_END_TAG -->
+<!-- File: p9_io_obus_image_build_errors.xml. -->
+<!-- Error definitions for p9_io_obus_image_build.C -->
+<hwpErrors>
+ <!-- *********************************************************************** -->
+ <hwpError>
+ <rc>RC_IO_OMI_RX_DCCAL_TIMEOUT</rc>
+ <ffdc>LANE</ffdc>
+ <ffdc>TARGET</ffdc>
+ <description>I/O Obus Rx Dccal(Offset calibration) Timeout</description>
+ <callout>
+ <target>TARGET</target>
+ <priority>HIGH</priority>
+ </callout>
+ <deconfigure>
+ <target>TARGET</target>
+ </deconfigure>
+ <gard>
+ <target>TARGET</target>
+ </gard>
+ </hwpError>
+ <!-- *********************************************************************** -->
+ <hwpError>
+ <rc>RC_P9_IO_PPE_OMI_IMG_PTR_ERROR</rc>
+ <description>Image pointer passed in is bad.</description>
+ <ffdc>HW_IMG_PTR</ffdc>
+ <callout>
+ <procedure>CODE</procedure>
+ <priority>HIGH</priority>
+ </callout>
+ </hwpError>
+ <!-- *********************************************************************** -->
+</hwpErrors>
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