174 lines
4.2 KiB
C
Executable file
174 lines
4.2 KiB
C
Executable file
/*
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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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/* Topic: Description
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This file contains declarations of the various benchmark functions.
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*/
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/* Configuration: TOTAL_DATA_SIZE
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Define total size for data algorithms will operate on
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*/
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#ifndef TOTAL_DATA_SIZE
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#define TOTAL_DATA_SIZE 2*1000
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#endif
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#define SEED_ARG 0
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#define SEED_FUNC 1
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#define SEED_VOLATILE 2
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#define MEM_STATIC 0
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#define MEM_MALLOC 1
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#define MEM_STACK 2
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#include "core_portme.h"
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#if HAS_STDIO
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#include <stdio.h>
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#endif
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#if HAS_PRINTF
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#define ee_printf printf
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#endif
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/* Actual benchmark execution in iterate */
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void *iterate(void *pres);
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/* Typedef: secs_ret
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For machines that have floating point support, get number of seconds as a double.
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Otherwise an unsigned int.
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*/
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#if HAS_FLOAT
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typedef double secs_ret;
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#else
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typedef ee_u32 secs_ret;
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#endif
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#if MAIN_HAS_NORETURN
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#define MAIN_RETURN_VAL
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#define MAIN_RETURN_TYPE void
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#else
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#define MAIN_RETURN_VAL 0
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#define MAIN_RETURN_TYPE int
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#endif
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void start_time(void);
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void stop_time(void);
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CORE_TICKS get_time(void);
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secs_ret time_in_secs(CORE_TICKS ticks);
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/* Misc useful functions */
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ee_u16 crcu8(ee_u8 data, ee_u16 crc);
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ee_u16 crc16(ee_s16 newval, ee_u16 crc);
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ee_u16 crcu16(ee_u16 newval, ee_u16 crc);
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ee_u16 crcu32(ee_u32 newval, ee_u16 crc);
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ee_u8 check_data_types();
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void *portable_malloc(ee_size_t size);
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void portable_free(void *p);
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ee_s32 parseval(char *valstring);
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/* Algorithm IDS */
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#define ID_LIST (1<<0)
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#define ID_MATRIX (1<<1)
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#define ID_STATE (1<<2)
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#define ALL_ALGORITHMS_MASK (ID_LIST|ID_MATRIX|ID_STATE)
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#define NUM_ALGORITHMS 3
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/* list data structures */
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typedef struct list_data_s {
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ee_s16 data16;
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ee_s16 idx;
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} list_data;
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typedef struct list_head_s {
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struct list_head_s *next;
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struct list_data_s *info;
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} list_head;
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/*matrix benchmark related stuff */
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#define MATDAT_INT 1
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#if MATDAT_INT
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typedef ee_s16 MATDAT;
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typedef ee_s32 MATRES;
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#else
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typedef ee_f16 MATDAT;
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typedef ee_f32 MATRES;
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#endif
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typedef struct MAT_PARAMS_S {
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int N;
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MATDAT *A;
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MATDAT *B;
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MATRES *C;
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} mat_params;
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/* state machine related stuff */
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/* List of all the possible states for the FSM */
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typedef enum CORE_STATE {
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CORE_START=0,
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CORE_INVALID,
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CORE_S1,
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CORE_S2,
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CORE_INT,
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CORE_FLOAT,
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CORE_EXPONENT,
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CORE_SCIENTIFIC,
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NUM_CORE_STATES
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} core_state_e ;
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/* Helper structure to hold results */
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typedef struct RESULTS_S {
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/* inputs */
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ee_s16 seed1; /* Initializing seed */
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ee_s16 seed2; /* Initializing seed */
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ee_s16 seed3; /* Initializing seed */
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void *memblock[4]; /* Pointer to safe memory location */
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ee_u32 size; /* Size of the data */
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ee_u32 iterations; /* Number of iterations to execute */
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ee_u32 execs; /* Bitmask of operations to execute */
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struct list_head_s *list;
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mat_params mat;
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/* outputs */
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ee_u16 crc;
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ee_u16 crclist;
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ee_u16 crcmatrix;
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ee_u16 crcstate;
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ee_s16 err;
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/* ultithread specific */
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core_portable port;
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} core_results;
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/* Multicore execution handling */
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#if (MULTITHREAD>1)
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ee_u8 core_start_parallel(core_results *res);
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ee_u8 core_stop_parallel(core_results *res);
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#endif
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/* list benchmark functions */
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list_head *core_list_init(ee_u32 blksize, list_head *memblock, ee_s16 seed);
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ee_u16 core_bench_list(core_results *res, ee_s16 finder_idx);
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/* state benchmark functions */
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void core_init_state(ee_u32 size, ee_s16 seed, ee_u8 *p);
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ee_u16 core_bench_state(ee_u32 blksize, ee_u8 *memblock,
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ee_s16 seed1, ee_s16 seed2, ee_s16 step, ee_u16 crc);
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/* matrix benchmark functions */
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ee_u32 core_init_matrix(ee_u32 blksize, void *memblk, ee_s32 seed, mat_params *p);
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ee_u16 core_bench_matrix(mat_params *p, ee_s16 seed, ee_u16 crc);
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