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/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/occ_405/sensor/sensor_info.c $ */
/* */
/* OpenPOWER OnChipController Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2011,2017 */
/* [+] 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 <occ_common.h> // STATIC_ASSERT macro
#include <sensor.h> // For Sensor defines
#define AMEEFP_250US_IN_HZ AMEFP(4,3) // 4000 Hz
#define AMEEFP_500US_IN_HZ AMEFP(2,3) // 2000 Hz
#define AMEEFP_1MS_IN_HZ AMEFP(1,3) // 1000 Hz
#define AMEEFP_2MS_IN_HZ AMEFP(5,2) // 500 Hz
#define AMEEFP_4MS_IN_HZ AMEFP(25,1) // 250 Hz
#define AMEEFP_3S_IN_HZ AMEFP(333,-3) // 0.333 Hz
#define AMEFP_SCALE_0_16384 AMEFP(610352,-8) // scalar so that digital 16384=100%
// This will get the string when given the GSID
#define SENSOR_GSID_TO_STRING(gsid) G_sensor_list[gsid].name;
// This will define the fields of the "sensor" member of the sensor_info_t
#define SENSOR_VALUES(units, type, location, number, frequency, scaleFactor) \
.sensor = { units, type, location, number, frequency, scaleFactor },}
// This will put a single sensor entry into the sensor list table
#define SENSOR_INFO_T_ENTRY(sensor_name, units, type, location, number, frequency, scaleFactor) \
[sensor_name] = {.name = #sensor_name, \
.sensor = { units, type, location, number, frequency, scaleFactor },}
// This will paste a number onto a sensor name base to create the full enum
// representation of the sensor name
#define SENSOR_W_NUM(sensor_name, num) sensor_name##num
// This will paste a number onto a sensor name base to create the full enum
// representation of the sensor name
#define SENSOR_W_CENTAUR_NUM_HELPER(sensor_name, memc,centL,cent,ppL,pp) sensor_name##memc##centL##cent##ppL##pp
#define SENSOR_W_CENTAUR_NUM(sensor_name, memc,cent,pp) SENSOR_W_CENTAUR_NUM_HELPER(sensor_name,memc,C,cent,P,pp)
// This will stringify the enum so to create the sensor name. This will help
// save keystrokes, as well as reduce typos & copy paste errors.
#define SENSOR_STRING(sensor_name) #sensor_name
// This will stringify the enum so to create the sensor name. This will help
// save keystrokes, as well as reduce typos & copy paste errors.
#define CENTAUR_SENSOR_STRING_HELPER(sensor_name, memc,centL,cent,ppL,pp) SENSOR_STRING(sensor_name##memc##centL##cent##ppL##pp)
#define CENTAUR_SENSOR_STRING(sensor_name,memc,cent,pp) CENTAUR_SENSOR_STRING_HELPER(sensor_name, memc,C,cent,P,pp)
// This will create a set of 6 sensor entries into the sensor list table.
// (one for each quad...) The base name of the sensor enum must be passed
// and this macro will take care of the paste & stringify operations.
#define SENS_QUAD_ENTRY_SET(sensor_name, units, type, location, number, frequency, scaleFactor) \
[SENSOR_W_NUM(sensor_name,0)] = {.name = SENSOR_STRING(sensor_name ## 0), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,1)] = {.name = SENSOR_STRING(sensor_name ## 1), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,2)] = {.name = SENSOR_STRING(sensor_name ## 2), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,3)] = {.name = SENSOR_STRING(sensor_name ## 3), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,4)] = {.name = SENSOR_STRING(sensor_name ## 4), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,5)] = {.name = SENSOR_STRING(sensor_name ## 5), \
.sensor = { units, type, location, number, frequency, scaleFactor },}
// This will create a set of 24 sensor entries into the sensor list table.
// (one for each core...) The base name of the sensor enum must be passed
// and this macro will take care of the paste & stringify operations.
#define SENS_CORE_ENTRY_SET(sensor_name, units, type, location, number, frequency, scaleFactor) \
[SENSOR_W_NUM(sensor_name,0)] = {.name = SENSOR_STRING(sensor_name ## 00), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,1)] = {.name = SENSOR_STRING(sensor_name ## 01), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,2)] = {.name = SENSOR_STRING(sensor_name ## 02), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,3)] = {.name = SENSOR_STRING(sensor_name ## 03), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,4)] = {.name = SENSOR_STRING(sensor_name ## 04), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,5)] = {.name = SENSOR_STRING(sensor_name ## 05), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,6)] = {.name = SENSOR_STRING(sensor_name ## 06), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,7)] = {.name = SENSOR_STRING(sensor_name ## 07), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,8)] = {.name = SENSOR_STRING(sensor_name ## 08), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,9)] = {.name = SENSOR_STRING(sensor_name ## 09), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,10)] = {.name = SENSOR_STRING(sensor_name ## 10), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,11)] = {.name = SENSOR_STRING(sensor_name ## 11), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,12)] = {.name = SENSOR_STRING(sensor_name ## 12), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,13)] = {.name = SENSOR_STRING(sensor_name ## 13), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,14)] = {.name = SENSOR_STRING(sensor_name ## 14), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,15)] = {.name = SENSOR_STRING(sensor_name ## 15), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,16)] = {.name = SENSOR_STRING(sensor_name ## 16), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,17)] = {.name = SENSOR_STRING(sensor_name ## 17), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,18)] = {.name = SENSOR_STRING(sensor_name ## 18), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,19)] = {.name = SENSOR_STRING(sensor_name ## 19), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,20)] = {.name = SENSOR_STRING(sensor_name ## 20), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,21)] = {.name = SENSOR_STRING(sensor_name ## 21), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,22)] = {.name = SENSOR_STRING(sensor_name ## 22), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,23)] = {.name = SENSOR_STRING(sensor_name ## 23), \
.sensor = { units, type, location, number, frequency, scaleFactor },}
// This will create a set of 8 sensor entries into the sensor list table.
// (one for each memc...) The base name of the sensor enum must be passed
// and this macro will take care of the paste & stringify operations.
#define SENS_MEMC_ENTRY_SET(sensor_name, units, type, location, number, frequency, scaleFactor) \
[SENSOR_W_NUM(sensor_name,0)] = {.name = SENSOR_STRING(sensor_name ## 0), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,1)] = {.name = SENSOR_STRING(sensor_name ## 1), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,2)] = {.name = SENSOR_STRING(sensor_name ## 2), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,3)] = {.name = SENSOR_STRING(sensor_name ## 3), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,4)] = {.name = SENSOR_STRING(sensor_name ## 4), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,5)] = {.name = SENSOR_STRING(sensor_name ## 5), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,6)] = {.name = SENSOR_STRING(sensor_name ## 6), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_NUM(sensor_name,7)] = {.name = SENSOR_STRING(sensor_name ## 7), \
.sensor = { units, type, location, number, frequency, scaleFactor },}
// This will create a set of 16 sensor entries into the sensor list table.
// (one for each centaur...) The base name of the sensor enum must be passed
// and this macro will take care of the paste & stringify operations.
#define SEN_CENTR_ENTRY_SET(sensor_name, units, type, location, number, frequency, scaleFactor) \
[SENSOR_W_CENTAUR_NUM(sensor_name,0,0,0)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,0,0,0), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,0,0,1)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,0,0,1), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,1,0,0)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,1,0,0), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,1,0,1)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,1,0,1), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,2,0,0)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,2,0,0), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,2,0,1)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,2,0,1), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,3,0,0)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,3,0,0), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,3,0,1)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,3,0,1), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,4,0,0)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,4,0,0), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,4,0,1)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,4,0,1), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,5,0,0)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,5,0,0), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,5,0,1)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,5,0,1), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,6,0,0)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,6,0,0), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,6,0,1)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,6,0,1), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,7,0,0)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,7,0,0), \
.sensor = { units, type, location, number, frequency, scaleFactor },}, \
[SENSOR_W_CENTAUR_NUM(sensor_name,7,0,1)] = {.name = CENTAUR_SENSOR_STRING(sensor_name,7,0,1), \
.sensor = { units, type, location, number, frequency, scaleFactor },}
// This table takes care of the ordering of the sensors (by GSID) and all parameters needed for AMEC or AMESTER. The order
// that is in the table below doesn't matter because we use designated initializers.
// If anything more than the barebones sensor_t is need, an applet will need to be called in order to gather that data.
// For refernce:
// AMEFP(1, 3); // 1000:1 scale factor
// AMEFP(1, 0); // 1:1 scale factor
// AMEFP(1,-1); // 1:0.1 scale factor
// AMEFP(1,-3); // 1:0.001 scale factor
//
const sensor_info_t G_sensor_info[] =
{
/* ==FirmwareSensors== NameString Units Type Location Number Freq ScaleFactor */
SENSOR_INFO_T_ENTRY( AMEintdur, "us\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( AMESSdur0, "us\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( AMESSdur1, "us\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( AMESSdur2, "us\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( AMESSdur3, "us\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( AMESSdur4, "us\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( AMESSdur5, "us\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( AMESSdur6, "us\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( AMESSdur7, "us\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PROBE250US0, "n/a\0", AMEC_SENSOR_TYPE_GENERIC, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PROBE250US1, "n/a\0", AMEC_SENSOR_TYPE_GENERIC, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PROBE250US2, "n/a\0", AMEC_SENSOR_TYPE_GENERIC, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PROBE250US3, "n/a\0", AMEC_SENSOR_TYPE_GENERIC, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PROBE250US4, "n/a\0", AMEC_SENSOR_TYPE_GENERIC, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PROBE250US5, "n/a\0", AMEC_SENSOR_TYPE_GENERIC, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PROBE250US6, "n/a\0", AMEC_SENSOR_TYPE_GENERIC, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PROBE250US7, "n/a\0", AMEC_SENSOR_TYPE_GENERIC, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( GPEtickdur0, "us\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( GPEtickdur1, "us\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( RTLtickdur, "us\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_OCC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
/* ==SystemSensors== NameString Units Type Location Number Freq ScaleFactor */
SENSOR_INFO_T_ENTRY( TEMPAMBIENT, "C\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( ALTITUDE, "m\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWR250US, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWR250USFAN, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWR250USIO, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWR250USSTORE, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRGPU, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( FANSPEEDAVG, "RPM\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH0, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH1, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH2, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH3, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH4, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH5, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH6, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH7, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH8, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH9, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH10, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH11, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH12, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH13, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH14, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRAPSSCH15, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( CUR12VSTBY, "A\0", AMEC_SENSOR_TYPE_CURRENT, AMEC_SENSOR_LOC_SYS, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1,-2) ),
/* ==ChipSensors== NameString Units Type Location Number Freq ScaleFactor */
SENSOR_INFO_T_ENTRY( TODclock0, "us\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_ALL, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 16, 0) ),
SENSOR_INFO_T_ENTRY( TODclock1, "sec\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_ALL, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1048576,-6) ),
SENSOR_INFO_T_ENTRY( TODclock2, "day\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_ALL, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 795364,-6) ),
/* ==ProcSensors== NameString Units Type Location Number Freq ScaleFactor */
SENSOR_INFO_T_ENTRY( FREQA4MSP0, "MHz\0", AMEC_SENSOR_TYPE_FREQ, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( IPS4MSP0, "MIP\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( MEMSP2MSP0, "%\0", AMEC_SENSOR_TYPE_TIME, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWR250USP0, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWR250USVDD0, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRVCSVIOVDN, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWR250USMEM0, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( SLEEPCNT4MSP0, "#\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( WINKCNT4MSP0, "#\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( SP250USP0, "%\0", AMEC_SENSOR_TYPE_FREQ, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( TEMPPROCAVG, "C\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( TEMPPROCTHRM, "C\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( UTIL4MSP0, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1,-2) ),
SENSOR_INFO_T_ENTRY( TEMPNEST, "C\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( VOLTVDDSENSE, "mV\0", AMEC_SENSOR_TYPE_VOLTAGE, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, -1) ),
SENSOR_INFO_T_ENTRY( VOLTVDNSENSE, "mV\0", AMEC_SENSOR_TYPE_VOLTAGE, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, -1) ),
SENSOR_INFO_T_ENTRY( PWRVDD, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_500US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( PWRVDN, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_500US_IN_HZ, AMEFP( 1, 0) ),
SENS_QUAD_ENTRY_SET( TEMPQ, "C\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_PROC, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
/* ==ReguSensors== NameString Units Type Location Number Freq ScaleFactor */
SENSOR_INFO_T_ENTRY( UVOLT250USP0V0, "mV\0", AMEC_SENSOR_TYPE_VOLTAGE, AMEC_SENSOR_LOC_VRM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, -1) ),
SENSOR_INFO_T_ENTRY( UVOLT250USP0V1, "mV\0", AMEC_SENSOR_TYPE_VOLTAGE, AMEC_SENSOR_LOC_VRM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, -1) ),
SENSOR_INFO_T_ENTRY( VOLTVDD, "mV\0", AMEC_SENSOR_TYPE_VOLTAGE, AMEC_SENSOR_LOC_VRM, AMEC_SENSOR_NONUM, AMEEFP_500US_IN_HZ, AMEFP( 1, -1) ),
SENSOR_INFO_T_ENTRY( VOLTVDN, "mV\0", AMEC_SENSOR_TYPE_VOLTAGE, AMEC_SENSOR_LOC_VRM, AMEC_SENSOR_NONUM, AMEEFP_500US_IN_HZ, AMEFP( 1, -1) ),
SENSOR_INFO_T_ENTRY( CURVDD, "A\0", AMEC_SENSOR_TYPE_CURRENT, AMEC_SENSOR_LOC_VRM, AMEC_SENSOR_NONUM, AMEEFP_500US_IN_HZ, AMEFP( 1,-2) ),
SENSOR_INFO_T_ENTRY( CURVDN, "A\0", AMEC_SENSOR_TYPE_CURRENT, AMEC_SENSOR_LOC_VRM, AMEC_SENSOR_NONUM, AMEEFP_500US_IN_HZ, AMEFP( 1,-2) ),
SENSOR_INFO_T_ENTRY( VRFAN, "pin\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_VRM, AMEC_SENSOR_NONUM, AMEEFP_1MS_IN_HZ, AMEFP( 1, 0) ),
/* ==CoreSensors== NameString Units Type Location Number Freq ScaleFactor */
SENS_CORE_ENTRY_SET( FREQ250USP0C, "MHz\0", AMEC_SENSOR_TYPE_FREQ, AMEC_SENSOR_LOC_CORE, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENS_CORE_ENTRY_SET( FREQA4MSP0C, "MHz\0", AMEC_SENSOR_TYPE_FREQ, AMEC_SENSOR_LOC_CORE, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
SENS_CORE_ENTRY_SET( IPS4MSP0C, "MIP\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_CORE, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
SENS_CORE_ENTRY_SET( NOTBZE4MSP0C, "cyc\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_CORE, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
SENS_CORE_ENTRY_SET( NOTFIN4MSP0C, "cyc\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_CORE, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
SENS_CORE_ENTRY_SET( TEMPPROCTHRMC, "C\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_CORE, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
SENS_CORE_ENTRY_SET( UTIL4MSP0C, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_CORE, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1,-2) ),
SENS_CORE_ENTRY_SET( NUTIL3SP0C, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_CORE, AMEC_SENSOR_NONUM, AMEEFP_3S_IN_HZ, AMEFP( 1,-2) ),
SENS_CORE_ENTRY_SET( MSTL2MSP0C, "cpi\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_CORE, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENS_CORE_ENTRY_SET( CMT2MSP0C, "%\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_CORE, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENS_CORE_ENTRY_SET( PPICP0C, "%\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_CORE, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENS_CORE_ENTRY_SET( PWRPX250USP0C, "W\0", AMEC_SENSOR_TYPE_POWER, AMEC_SENSOR_LOC_CORE, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENS_CORE_ENTRY_SET( TEMPC, "C\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_CORE, AMEC_SENSOR_NONUM, AMEEFP_4MS_IN_HZ, AMEFP( 1, 0) ),
/* ==MemSensors== NameString Units Type Location Number Freq ScaleFactor */
SENS_MEMC_ENTRY_SET( MRD2MSP0M, "GBs\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 128, -5) ),
SENS_MEMC_ENTRY_SET( MWR2MSP0M, "GBs\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 128, -5) ),
SENS_MEMC_ENTRY_SET( MIRC2MSP0M, "eps\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENS_MEMC_ENTRY_SET( MLP2P0M, "eps\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENS_MEMC_ENTRY_SET( TEMPDIMMAXP0M, "C\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
SENS_MEMC_ENTRY_SET( LOCDIMMAXP0M, "loc\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 1, 0) ),
/* ==CentaurSensors== NameString Units Type Location Number Freq ScaleFactor */
SEN_CENTR_ENTRY_SET( MAC2MSP0M, "rps\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SEN_CENTR_ENTRY_SET( MPU2MSP0M, "rps\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SEN_CENTR_ENTRY_SET( MIRB2MSP0M, "eps\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SEN_CENTR_ENTRY_SET( MIRL2MSP0M, "eps\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SEN_CENTR_ENTRY_SET( MIRM2MSP0M, "eps\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SEN_CENTR_ENTRY_SET( MIRH2MSP0M, "eps\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SEN_CENTR_ENTRY_SET( MTS2MSP0M, "cnt\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SEN_CENTR_ENTRY_SET( MEMSP2MSPM, "%\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SEN_CENTR_ENTRY_SET( M4RD2MSP0M, "GBs\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 128, -5) ),
SEN_CENTR_ENTRY_SET( M4WR2MSP0M, "GBs\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP( 128, -5) ),
/* ==MemSummarySensors== NameString Units Type Location Number Freq ScaleFactor */
SENSOR_INFO_T_ENTRY( TEMP2MSCENT, "C\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( TEMP16MSDIMM, "C\0", AMEC_SENSOR_TYPE_TEMP, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
SENSOR_INFO_T_ENTRY( MEMSP2MS, "%\0", AMEC_SENSOR_TYPE_PERF, AMEC_SENSOR_LOC_MEM, AMEC_SENSOR_NONUM, AMEEFP_250US_IN_HZ, AMEFP( 1, 0) ),
/* ==PartSummarySensors== NameString Units Type Location Number Freq ScaleFactor */
SENSOR_INFO_T_ENTRY( UTIL2MSSLCG000, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_LPAR, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP_SCALE_0_16384),
SENSOR_INFO_T_ENTRY( UTIL2MSSLCG001, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_LPAR, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP_SCALE_0_16384),
SENSOR_INFO_T_ENTRY( UTIL2MSSLCG002, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_LPAR, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP_SCALE_0_16384),
SENSOR_INFO_T_ENTRY( UTIL2MSSLCG003, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_LPAR, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP_SCALE_0_16384),
SENSOR_INFO_T_ENTRY( UTIL2MSSLCG004, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_LPAR, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP_SCALE_0_16384),
SENSOR_INFO_T_ENTRY( UTIL2MSSLCG005, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_LPAR, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP_SCALE_0_16384),
SENSOR_INFO_T_ENTRY( UTIL2MSSLCG006, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_LPAR, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP_SCALE_0_16384),
SENSOR_INFO_T_ENTRY( UTIL2MSSLCG007, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_LPAR, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP_SCALE_0_16384),
SENSOR_INFO_T_ENTRY( UTIL2MSSLCG008, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_LPAR, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP_SCALE_0_16384),
SENSOR_INFO_T_ENTRY( UTIL2MSSLCG009, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_LPAR, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP_SCALE_0_16384),
SENSOR_INFO_T_ENTRY( UTIL2MSSLCG010, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_LPAR, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP_SCALE_0_16384),
SENSOR_INFO_T_ENTRY( UTIL2MSSLCG011, "%\0", AMEC_SENSOR_TYPE_UTIL, AMEC_SENSOR_LOC_LPAR, AMEC_SENSOR_NONUM, AMEEFP_2MS_IN_HZ, AMEFP_SCALE_0_16384),
};
// Cause a compile error if we don't have all the sensors in the enum in the initialization list.
STATIC_ASSERT( (NUMBER_OF_SENSORS_IN_LIST != (sizeof(G_sensor_info)/sizeof(sensor_info_t))) );
STATIC_ASSERT( (MAX_AMEC_SENSORS < (sizeof(G_sensor_info)/sizeof(sensor_info_t))) );
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