2021-05-22 07:26:24 +00:00
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/*
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Author : Shay Gal-On, EEMBC
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This file is part of EEMBC(R) and CoreMark(TM), which are Copyright (C) 2009
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All rights reserved.
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EEMBC CoreMark Software is a product of EEMBC and is provided under the terms of the
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CoreMark License that is distributed with the official EEMBC COREMARK Software release.
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If you received this EEMBC CoreMark Software without the accompanying CoreMark License,
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you must discontinue use and download the official release from www.coremark.org.
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Also, if you are publicly displaying scores generated from the EEMBC CoreMark software,
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make sure that you are in compliance with Run and Reporting rules specified in the accompanying readme.txt file.
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EEMBC
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4354 Town Center Blvd. Suite 114-200
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El Dorado Hills, CA, 95762
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*/
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/* File: core_main.c
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This file contains the framework to acquire a block of memory, seed initial parameters, tun t he benchmark and report the results.
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*/
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#include "coremark.h"
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/* Function: iterate
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Run the benchmark for a specified number of iterations.
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Operation:
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For each type of benchmarked algorithm:
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a - Initialize the data block for the algorithm.
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b - Execute the algorithm N times.
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Returns:
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NULL.
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*/
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static ee_u16 list_known_crc[] = {(ee_u16)0xd4b0,(ee_u16)0x3340,(ee_u16)0x6a79,(ee_u16)0xe714,(ee_u16)0xe3c1};
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static ee_u16 matrix_known_crc[] = {(ee_u16)0xbe52,(ee_u16)0x1199,(ee_u16)0x5608,(ee_u16)0x1fd7,(ee_u16)0x0747};
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static ee_u16 state_known_crc[] = {(ee_u16)0x5e47,(ee_u16)0x39bf,(ee_u16)0xe5a4,(ee_u16)0x8e3a,(ee_u16)0x8d84};
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void *iterate(void *pres) {
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ee_u32 i;
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ee_u16 crc;
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core_results *res=(core_results *)pres;
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ee_u32 iterations=res->iterations;
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res->crc=0;
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res->crclist=0;
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res->crcmatrix=0;
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res->crcstate=0;
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for (i=0; i<iterations; i++) {
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crc=core_bench_list(res,1);
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res->crc=crcu16(crc,res->crc);
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crc=core_bench_list(res,-1);
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res->crc=crcu16(crc,res->crc);
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if (i==0) res->crclist=res->crc;
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}
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return NULL;
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}
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#if (SEED_METHOD==SEED_ARG)
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ee_s32 get_seed_args(int i, int argc, char *argv[]);
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#define get_seed(x) (ee_s16)get_seed_args(x,argc,argv)
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#define get_seed_32(x) get_seed_args(x,argc,argv)
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#else /* via function or volatile */
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ee_s32 get_seed_32(int i);
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#define get_seed(x) (ee_s16)get_seed_32(x)
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#endif
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#if (MEM_METHOD==MEM_STATIC)
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ee_u8 static_memblk[TOTAL_DATA_SIZE];
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#endif
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char *mem_name[3] = {"Static","Heap","Stack"};
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/* Function: main
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Main entry routine for the benchmark.
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This function is responsible for the following steps:
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1 - Initialize input seeds from a source that cannot be determined at compile time.
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2 - Initialize memory block for use.
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3 - Run and time the benchmark.
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4 - Report results, testing the validity of the output if the seeds are known.
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Arguments:
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1 - first seed : Any value
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2 - second seed : Must be identical to first for iterations to be identical
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3 - third seed : Any value, should be at least an order of magnitude less then the input size, but bigger then 32.
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4 - Iterations : Special, if set to 0, iterations will be automatically determined such that the benchmark will run between 10 to 100 secs
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*/
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#if MAIN_HAS_NOARGC
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MAIN_RETURN_TYPE main(void) {
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int argc=0;
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char *argv[1];
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#else
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MAIN_RETURN_TYPE main(int argc, char *argv[]) {
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#endif
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ee_u16 i,j=0,num_algorithms=0;
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ee_s16 known_id=-1,total_errors=0;
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ee_u16 seedcrc=0;
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CORE_TICKS total_time;
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core_results results[MULTITHREAD];
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#if (MEM_METHOD==MEM_STACK)
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ee_u8 stack_memblock[TOTAL_DATA_SIZE*MULTITHREAD];
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#endif
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/* first call any initializations needed */
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portable_init(&(results[0].port), &argc, argv);
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ee_printf("Test running, please wait...\n");
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/* First some checks to make sure benchmark will run ok */
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if (sizeof(struct list_head_s)>128) {
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ee_printf("list_head structure too big for comparable data!\n");
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return MAIN_RETURN_VAL;
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}
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results[0].seed1=get_seed(1);
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results[0].seed2=get_seed(2);
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results[0].seed3=get_seed(3);
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results[0].iterations=get_seed_32(4);
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#if CORE_DEBUG
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results[0].iterations=1;
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#endif
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results[0].execs=get_seed_32(5);
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if (results[0].execs==0) { /* if not supplied, execute all algorithms */
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results[0].execs=ALL_ALGORITHMS_MASK;
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}
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/* put in some default values based on one seed only for easy testing */
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if ((results[0].seed1==0) && (results[0].seed2==0) && (results[0].seed3==0)) { /* validation run */
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results[0].seed1=0;
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results[0].seed2=0;
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results[0].seed3=0x66;
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}
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if ((results[0].seed1==1) && (results[0].seed2==0) && (results[0].seed3==0)) { /* perfromance run */
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results[0].seed1=0x3415;
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results[0].seed2=0x3415;
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results[0].seed3=0x66;
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}
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#if (MEM_METHOD==MEM_STATIC)
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results[0].memblock[0]=(void *)static_memblk;
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results[0].size=TOTAL_DATA_SIZE;
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results[0].err=0;
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#if (MULTITHREAD>1)
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#error "Cannot use a static data area with multiple contexts!"
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#endif
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#elif (MEM_METHOD==MEM_MALLOC)
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for (i=0 ; i<MULTITHREAD; i++) {
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ee_s32 malloc_override=get_seed(7);
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if (malloc_override != 0)
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results[i].size=malloc_override;
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else
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results[i].size=TOTAL_DATA_SIZE;
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results[i].memblock[0]=portable_malloc(results[i].size);
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results[i].seed1=results[0].seed1;
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results[i].seed2=results[0].seed2;
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results[i].seed3=results[0].seed3;
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results[i].err=0;
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results[i].execs=results[0].execs;
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}
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#elif (MEM_METHOD==MEM_STACK)
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for (i=0 ; i<MULTITHREAD; i++) {
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results[i].memblock[0]=stack_memblock+i*TOTAL_DATA_SIZE;
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results[i].size=TOTAL_DATA_SIZE;
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results[i].seed1=results[0].seed1;
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results[i].seed2=results[0].seed2;
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results[i].seed3=results[0].seed3;
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results[i].err=0;
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results[i].execs=results[0].execs;
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}
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#else
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#error "Please define a way to initialize a memory block."
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#endif
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/* Data init */
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/* Find out how space much we have based on number of algorithms */
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for (i=0; i<NUM_ALGORITHMS; i++) {
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if ((1<<(ee_u32)i) & results[0].execs)
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num_algorithms++;
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}
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for (i=0 ; i<MULTITHREAD; i++)
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results[i].size=results[i].size/num_algorithms;
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/* Assign pointers */
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for (i=0; i<NUM_ALGORITHMS; i++) {
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ee_u32 ctx;
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if ((1<<(ee_u32)i) & results[0].execs) {
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for (ctx=0 ; ctx<MULTITHREAD; ctx++)
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results[ctx].memblock[i+1]=(char *)(results[ctx].memblock[0])+results[0].size*j;
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j++;
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}
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}
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/* call inits */
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for (i=0 ; i<MULTITHREAD; i++) {
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if (results[i].execs & ID_LIST) {
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results[i].list=core_list_init(results[0].size,results[i].memblock[1],results[i].seed1);
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}
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if (results[i].execs & ID_MATRIX) {
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core_init_matrix(results[0].size, results[i].memblock[2], (ee_s32)results[i].seed1 | (((ee_s32)results[i].seed2) << 16), &(results[i].mat) );
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}
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if (results[i].execs & ID_STATE) {
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core_init_state(results[0].size,results[i].seed1,results[i].memblock[3]);
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}
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}
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/* automatically determine number of iterations if not set */
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if (results[0].iterations==0) {
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secs_ret secs_passed=0;
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ee_u32 divisor;
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results[0].iterations=1;
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while (secs_passed < (secs_ret)1) {
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results[0].iterations*=10;
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start_time();
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iterate(&results[0]);
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stop_time();
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secs_passed=time_in_secs(get_time());
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}
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/* now we know it executes for at least 1 sec, set actual run time at about 10 secs */
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divisor=(ee_u32)secs_passed;
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if (divisor==0) /* some machines cast float to int as 0 since this conversion is not defined by ANSI, but we know at least one second passed */
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divisor=1;
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results[0].iterations*=1+10/divisor;
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}
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/* perform actual benchmark */
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start_time();
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#if (MULTITHREAD>1)
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if (default_num_contexts>MULTITHREAD) {
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default_num_contexts=MULTITHREAD;
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}
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for (i=0 ; i<default_num_contexts; i++) {
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results[i].iterations=results[0].iterations;
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results[i].execs=results[0].execs;
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core_start_parallel(&results[i]);
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}
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for (i=0 ; i<default_num_contexts; i++) {
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core_stop_parallel(&results[i]);
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}
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#else
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iterate(&results[0]);
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#endif
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stop_time();
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total_time=get_time();
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/* get a function of the input to report */
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seedcrc=crc16(results[0].seed1,seedcrc);
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seedcrc=crc16(results[0].seed2,seedcrc);
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seedcrc=crc16(results[0].seed3,seedcrc);
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seedcrc=crc16(results[0].size,seedcrc);
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switch (seedcrc) { /* test known output for common seeds */
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case 0x8a02: /* seed1=0, seed2=0, seed3=0x66, size 2000 per algorithm */
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known_id=0;
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ee_printf("6k performance run parameters for coremark.\n");
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break;
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case 0x7b05: /* seed1=0x3415, seed2=0x3415, seed3=0x66, size 2000 per algorithm */
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known_id=1;
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ee_printf("6k validation run parameters for coremark.\n");
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break;
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case 0x4eaf: /* seed1=0x8, seed2=0x8, seed3=0x8, size 400 per algorithm */
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known_id=2;
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ee_printf("Profile generation run parameters for coremark.\n");
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break;
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case 0xe9f5: /* seed1=0, seed2=0, seed3=0x66, size 666 per algorithm */
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known_id=3;
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ee_printf("2K performance run parameters for coremark.\n");
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break;
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case 0x18f2: /* seed1=0x3415, seed2=0x3415, seed3=0x66, size 666 per algorithm */
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known_id=4;
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ee_printf("2K validation run parameters for coremark.\n");
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break;
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default:
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total_errors=-1;
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break;
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}
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if (known_id>=0) {
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for (i=0 ; i<default_num_contexts; i++) {
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results[i].err=0;
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if ((results[i].execs & ID_LIST) &&
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(results[i].crclist!=list_known_crc[known_id])) {
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ee_printf("[%u]ERROR! list crc 0x%04x - should be 0x%04x\n",i,results[i].crclist,list_known_crc[known_id]);
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results[i].err++;
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}
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if ((results[i].execs & ID_MATRIX) &&
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(results[i].crcmatrix!=matrix_known_crc[known_id])) {
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ee_printf("[%u]ERROR! matrix crc 0x%04x - should be 0x%04x\n",i,results[i].crcmatrix,matrix_known_crc[known_id]);
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results[i].err++;
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}
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if ((results[i].execs & ID_STATE) &&
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(results[i].crcstate!=state_known_crc[known_id])) {
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ee_printf("[%u]ERROR! state crc 0x%04x - should be 0x%04x\n",i,results[i].crcstate,state_known_crc[known_id]);
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results[i].err++;
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}
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total_errors+=results[i].err;
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}
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}
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total_errors+=check_data_types();
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/* and report results */
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ee_printf("CoreMark Size : %lu\n",(ee_u32)results[0].size);
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ee_printf("Total ticks : %lu\n",(ee_u32)total_time);
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#if HAS_FLOAT
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ee_printf("Total time (secs): %f\n",time_in_secs(total_time));
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if (time_in_secs(total_time) > 0)
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ee_printf("Iterations/Sec : %f\n",default_num_contexts*results[0].iterations/time_in_secs(total_time));
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#else
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ee_printf("Total time (secs): %d\n",time_in_secs(total_time));
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if (time_in_secs(total_time) > 0)
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ee_printf("Iterations/Sec : %d\n",default_num_contexts*results[0].iterations/time_in_secs(total_time));
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#endif
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if (time_in_secs(total_time) < 10) {
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ee_printf("ERROR! Must execute for at least 10 secs for a valid result!\n");
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total_errors++;
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}
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ee_printf("Iterations : %lu\n",(ee_u32)default_num_contexts*results[0].iterations);
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ee_printf("Compiler version : %s\n",COMPILER_VERSION);
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ee_printf("Compiler flags : %s\n",COMPILER_FLAGS);
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#if (MULTITHREAD>1)
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ee_printf("Parallel %s : %d\n",PARALLEL_METHOD,default_num_contexts);
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#endif
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ee_printf("Memory location : %s\n",MEM_LOCATION);
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/* output for verification */
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ee_printf("seedcrc : 0x%04x\n",seedcrc);
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if (results[0].execs & ID_LIST)
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for (i=0 ; i<default_num_contexts; i++)
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ee_printf("[%d]crclist : 0x%04x\n",i,results[i].crclist);
|
|
|
|
if (results[0].execs & ID_MATRIX)
|
|
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for (i=0 ; i<default_num_contexts; i++)
|
|
|
|
ee_printf("[%d]crcmatrix : 0x%04x\n",i,results[i].crcmatrix);
|
|
|
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if (results[0].execs & ID_STATE)
|
|
|
|
for (i=0 ; i<default_num_contexts; i++)
|
|
|
|
ee_printf("[%d]crcstate : 0x%04x\n",i,results[i].crcstate);
|
|
|
|
for (i=0 ; i<default_num_contexts; i++)
|
|
|
|
ee_printf("[%d]crcfinal : 0x%04x\n",i,results[i].crc);
|
|
|
|
if (total_errors==0) {
|
|
|
|
ee_printf("Correct operation validated. See readme.txt for run and reporting rules.\n");
|
|
|
|
#if HAS_FLOAT
|
|
|
|
if (known_id==3) {
|
|
|
|
ee_printf("CoreMark 1.0 : %f / %s %s",default_num_contexts*results[0].iterations/time_in_secs(total_time),COMPILER_VERSION,COMPILER_FLAGS);
|
|
|
|
#if defined(MEM_LOCATION) && !defined(MEM_LOCATION_UNSPEC)
|
|
|
|
ee_printf(" / %s",MEM_LOCATION);
|
|
|
|
#else
|
|
|
|
ee_printf(" / %s",mem_name[MEM_METHOD]);
|
|
|
|
#endif
|
|
|
|
|
|
|
|
#if (MULTITHREAD>1)
|
|
|
|
ee_printf(" / %d:%s",default_num_contexts,PARALLEL_METHOD);
|
|
|
|
#endif
|
|
|
|
ee_printf("\n");
|
|
|
|
}
|
|
|
|
#endif
|
|
|
|
}
|
|
|
|
if (total_errors>0)
|
|
|
|
ee_printf("Errors detected\n");
|
|
|
|
if (total_errors<0)
|
|
|
|
ee_printf("Cannot validate operation for these seed values, please compare with results on a known platform.\n");
|
|
|
|
|
|
|
|
#if (MEM_METHOD==MEM_MALLOC)
|
|
|
|
for (i=0 ; i<MULTITHREAD; i++)
|
|
|
|
portable_free(results[i].memblock[0]);
|
|
|
|
#endif
|
|
|
|
/* And last call any target specific code for finalizing */
|
|
|
|
portable_fini(&(results[0].port));
|
|
|
|
|
|
|
|
return MAIN_RETURN_VAL;
|
|
|
|
}
|
|
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