447 lines
9.8 KiB
C
447 lines
9.8 KiB
C
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#include <stdio.h>
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#include <inttypes.h>
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#include "ace.h"
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#include "io_ace.h"
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#include "blif.h"
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#include "cycle.h"
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#include "sim.h"
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#include "bdd.h"
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#include "depth.h"
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#include "cube.h"
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// ABC Headers
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#include "base/abc/abc.h"
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#include "base/main/main.h"
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#include "base/io/ioAbc.h"
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//#include "vecInt.h"
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void print_status(Abc_Ntk_t * ntk);
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void alloc_and_init_activity_info(Abc_Ntk_t * ntk);
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void ace_update_latch_probs(Abc_Ntk_t * ntk);
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void print_node_bdd(Abc_Ntk_t * ntk);
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void print_nodes(Vec_Ptr_t * nodes);
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int ace_calc_activity(Abc_Ntk_t * ntk, int num_vectors, char * clk_name);
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st__table * ace_info_hash_table;
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void print_status(Abc_Ntk_t * ntk) {
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int i;
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Abc_Obj_t * obj;
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Abc_NtkForEachNode(ntk, obj, i)
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{
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Ace_Obj_Info_t * info = Ace_ObjInfo(obj);
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switch (info->status) {
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case ACE_UNDEF:
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printf("%d: UNDEFINED\n", i);
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break;
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case ACE_DEF:
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printf("%d: DEFINED\n", i);
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break;
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case ACE_SIM:
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printf("%d: SIM\n", i);
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break;
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case ACE_NEW:
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printf("%d: NEW\n", i);
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break;
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case ACE_OLD:
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printf("%d: OLD\n", i);
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break;
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default:
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printf("Invalid ABC object info status");
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exit(1);
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}
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}
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}
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void alloc_and_init_activity_info(Abc_Ntk_t * ntk) {
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Vec_Ptr_t * node_vec;
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Abc_Obj_t * obj_ptr;
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int i;
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node_vec = Abc_NtkDfsSeq(ntk);
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Vec_PtrForEachEntry(Abc_Obj_t*, node_vec, obj_ptr, i)
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{
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Ace_Obj_Info_t * info = Ace_ObjInfo(obj_ptr);
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info->values = NULL;
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info->status = ACE_UNDEF;
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info->num_toggles = 0;
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info->num_ones = 0;
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}
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Vec_PtrFree(node_vec);
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}
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void ace_update_latch_probs(Abc_Ntk_t * ntk) {
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Abc_Obj_t * obj_ptr;
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Abc_Obj_t * fanin_ptr;
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Abc_Obj_t * fanout_ptr;
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Ace_Obj_Info_t * fanin_info;
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Ace_Obj_Info_t * fanout_info;
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int i;
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Abc_NtkForEachLatch(ntk, obj_ptr, i)
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{
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fanin_ptr = Abc_ObjFanin0(obj_ptr);
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fanout_ptr = Abc_ObjFanout0(obj_ptr);
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fanin_info = Ace_ObjInfo(fanin_ptr);
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fanout_info = Ace_ObjInfo(fanout_ptr);
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fanout_info->static_prob = fanin_info->static_prob;
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fanout_info->switch_prob = fanin_info->switch_prob;
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fanout_info->status = fanin_info->status;
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}
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}
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void print_node_bdd(Abc_Ntk_t * ntk) {
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Abc_Obj_t * obj;
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int i;
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Abc_NtkForEachNode(ntk, obj, i)
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{
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DdNode * node = (DdNode*) obj->pData;
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printf("Object: %d\n", obj->Id);
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fflush(0);
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//printf("Fanin: %d\n", Abc_ObjFaninNum(obj)); fflush(0);
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while (1) {
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if (node == Cudd_ReadOne((DdManager*)ntk->pManFunc)) {
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//printf("one!\n");
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break;
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} else if (node == Cudd_ReadLogicZero((DdManager*)ntk->pManFunc)) {
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//printf("zero!\n");
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break;
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}
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printf("\tVar: %hd (%08" PRIXPTR ")\n", Cudd_Regular(node)->index,
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(uintptr_t) node);
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fflush(0);
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DdNode * first_node;
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DdGen* gen = Cudd_FirstNode((DdManager*) ntk->pManFunc, node, &first_node);
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Cudd_GenFree(gen);
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node = Cudd_E(node);
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}
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}
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}
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void print_nodes(Vec_Ptr_t * nodes) {
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Abc_Obj_t * obj;
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int i;
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printf("Printing Nodes\n");
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Vec_PtrForEachEntry(Abc_Obj_t*, nodes, obj, i)
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{
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printf("\t%d. %d-%d-%s\n", i, Abc_ObjId(obj), Abc_ObjType(obj),
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Abc_ObjName(obj));
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}
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fflush(0);
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}
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int ace_calc_activity(Abc_Ntk_t * ntk, int num_vectors, char * clk_name) {
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int error = 0;
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Vec_Ptr_t * nodes_all;
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Vec_Ptr_t * nodes_logic;
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Vec_Ptr_t * next_state_node_vec;
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Vec_Ptr_t * latches_in_cycles_vec;
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Abc_Obj_t * obj;
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int i, j;
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Ace_Obj_Info_t * info;
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//Build BDD
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Abc_NtkSopToBdd(ntk);
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nodes_all = Abc_NtkDfsSeq(ntk);
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nodes_logic = Abc_NtkDfs(ntk, TRUE);
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//print_nodes(nodes_logic);
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Vec_PtrForEachEntry(Abc_Obj_t*, nodes_all, obj, i)
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{
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info = Ace_ObjInfo(obj);
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info->status = ACE_UNDEF;
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}
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Abc_NtkForEachPi(ntk, obj, i)
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{
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info = Ace_ObjInfo(obj);
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if (strcmp(Abc_ObjName(obj), clk_name) != 0) {
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assert(info->static_prob >= 0 && info->static_prob <= 1.0);
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assert(info->switch_prob >= 0 && info->switch_prob <= 1.0);
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assert(info->switch_act >= 0 && info->switch_act <= 1.0);
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assert(info->switch_prob <= 2.0 * (1.0 - info->static_prob));
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assert(info->switch_prob <= 2.0 * info->static_prob);
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}
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info->status = ACE_DEF;
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}
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latches_in_cycles_vec = latches_in_cycles(ntk);
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printf("%d/%d latches are part of cycle(s)\n", latches_in_cycles_vec->nSize,
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Abc_NtkLatchNum(ntk));
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fflush(0);
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//if (latches_in_cycles_vec->nSize)
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if (TRUE) {
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//print_status(ntk);
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printf("Stage 1: Simulating Probabilities...\n");
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fflush(0);
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next_state_node_vec = Abc_NtkDfsSeq(ntk);
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//print_nodes(next_state_node_vec);
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ace_sim_activities(ntk, next_state_node_vec, num_vectors, 0.05);
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//ace_sim_activities(ntk, nodes_logic, num_vectors, 0.05);
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ace_update_latch_probs(ntk);
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Vec_PtrFree(next_state_node_vec);
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}
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//print_status(ntk);
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printf("Stage 2: Computing Probabilities...\n");
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fflush(0);
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// Currently this stage does nothing
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#if 0
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ace_bdd_get_literals (ntk, &leaves, &literals);
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i = 0;
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while(1)
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{
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//printf("Calc Iteration = %d\n", i++); fflush(0);
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if (ace_bdd_build_network_bdds(ntk, leaves, literals, ACE_MAX_BDD_SIZE, ACE_MIN_BDD_PROB) < 1)
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{
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break;
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}
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ace_update_latch_static_probs(ntk);
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ace_update_latch_switch_probs(ntk);
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}
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st__free_table(leaves);
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Vec_PtrFree(literals);
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#endif
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/*------------- Computing Register Output Activities. ---------------------*/
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printf("Stage 3: Computing Register Output Activities...\n");
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fflush(0);
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Abc_NtkForEachLatchOutput(ntk, obj, i)
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{
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Ace_Obj_Info_t * info2 = Ace_ObjInfo(obj);
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info2->switch_act = info2->switch_prob;
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assert(info2->switch_act >= 0.0);
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}
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Abc_NtkForEachPi(ntk, obj, i)
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{
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assert(Ace_ObjInfo(obj)->switch_act >= 0.0);
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}
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/*------------- Calculate switching activities. ---------------------*/
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printf("Stage 4: Computing Switching Activities...\n");
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fflush(0);
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/* Do latches first, then logic after */
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Vec_PtrForEachEntry(Abc_Obj_t*, nodes_all, obj, i)
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{
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Ace_Obj_Info_t * info2 = Ace_ObjInfo(obj);
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switch (Abc_ObjType(obj)) {
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case ABC_OBJ_PI:
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if (strcmp(Abc_ObjName(obj), clk_name) == 0) {
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info2->switch_act = 2;
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info2->switch_prob = 1;
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info2->static_prob = 0.5;
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} else {
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info2->switch_act = info2->switch_prob;
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}
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break;
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case ABC_OBJ_BO:
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case ABC_OBJ_LATCH:
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info2->switch_act = info2->switch_prob;
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break;
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default:
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break;
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}
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}
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Vec_PtrForEachEntry(Abc_Obj_t*, nodes_logic, obj, i)
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{
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Ace_Obj_Info_t * info2 = Ace_ObjInfo(obj);
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//Ace_Obj_Info_t * fanin_info2;
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assert(Abc_ObjType(obj) == ABC_OBJ_NODE);
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if (Abc_ObjFaninNum(obj) < 1) {
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info2->switch_act = 0.0;
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continue;
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} else {
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Vec_Ptr_t * literals = Vec_PtrAlloc(0);
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Abc_Obj_t * fanin;
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assert(obj->Type == ABC_OBJ_NODE);
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Abc_ObjForEachFanin(obj, fanin, j)
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{
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Vec_PtrPush(literals, fanin);
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}
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info2->switch_act = ace_bdd_calc_switch_act((DdManager*)ntk->pManFunc, obj,
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literals);
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Vec_PtrFree(literals);
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}
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assert(info2->switch_act >= 0);
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}
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Vec_PtrFree(nodes_logic);
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Vec_PtrFree(latches_in_cycles_vec);
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return error;
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}
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Ace_Obj_Info_t * Ace_ObjInfo(Abc_Obj_t * obj) {
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Ace_Obj_Info_t * info;
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if (st__lookup(ace_info_hash_table, (char *) obj, (char **) &info)) {
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return info;
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}
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assert(0);
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return NULL;
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}
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void prob_epsilon_fix(double * d) {
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if (*d < 0) {
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assert(*d > 0 - EPSILON);
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*d = 0;
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} else if (*d > 1) {
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assert(*d < 1 + EPSILON);
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*d = 1.;
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}
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}
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int main(int argc, char * argv[]) {
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FILE * BLIF = NULL;
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FILE * IN_ACT = NULL;
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FILE * OUT_ACT = stdout;
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ace_pi_format_t pi_format = ACE_CODED;
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double p, d;
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int i;
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int depth;
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int error = 0;
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Abc_Frame_t * pAbc;
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Abc_Ntk_t * ntk;
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Abc_Obj_t * obj;
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int seed = 0;
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p = ACE_PI_STATIC_PROB;
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d = ACE_PI_SWITCH_PROB;
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char blif_file_name[BLIF_FILE_NAME_LEN];
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char new_blif_file_name[BLIF_FILE_NAME_LEN];
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char* clk_name = NULL;
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ace_io_parse_argv(argc, argv, &BLIF, &IN_ACT, &OUT_ACT, blif_file_name,
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new_blif_file_name, &pi_format, &p, &d, &seed, &clk_name);
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srand(seed);
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pAbc = Abc_FrameGetGlobalFrame();
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ntk = Io_Read(blif_file_name, IO_FILE_BLIF, 1, 0);
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assert(ntk);
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printf("Objects in network: %d\n", Abc_NtkObjNum(ntk));
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printf("PIs in network: %d\n", Abc_NtkPiNum(ntk));
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printf("POs in network: %d\n", Abc_NtkPoNum(ntk));
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printf("Nodes in network: %d\n", Abc_NtkNodeNum(ntk));
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printf("Latches in network: %d\n", Abc_NtkLatchNum(ntk));
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if (!Abc_NtkIsAcyclic(ntk)) {
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printf("Circuit has combinational loops\n");
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exit(0);
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}
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// Alloc Aux Info Array
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// Full Allocation
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Ace_Obj_Info_t * info = (Ace_Obj_Info_t*) calloc(Abc_NtkObjNum(ntk), sizeof(Ace_Obj_Info_t));
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ace_info_hash_table = st__init_table(st__ptrcmp, st__ptrhash);
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int objNum = 0;
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Abc_NtkForEachObj(ntk, obj, i)
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{
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st__insert(ace_info_hash_table, (char *) obj, (char *) &info[objNum]);
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objNum++;
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}
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// Check Depth
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depth = ace_calc_network_depth(ntk);
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printf("Max Depth: %d\n", depth);
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assert(depth > 0);
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alloc_and_init_activity_info(ntk);
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switch (pi_format) {
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case ACE_CODED:
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printf("Input activities will be assumed (%f, %f, %f)...\n",
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ACE_PI_STATIC_PROB, ACE_PI_SWITCH_PROB, ACE_PI_SWITCH_ACT);
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break;
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case ACE_PD:
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printf("Input activities will be (%f, %f, %f)...\n", p, d, d);
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fflush(0);
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break;
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case ACE_ACT:
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printf("Input activities will be read from an activity file...\n");
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break;
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case ACE_VEC:
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printf("Input activities will be read from a vector file...\n");
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break;
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default:
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printf("Error reading activities.\n");
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error = ACE_ERROR;
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break;
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}
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if (!error) {
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if (clk_name == NULL) {
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// No clocks
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printf(
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"No clocks detected in blif file. This is not supported.\n");
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error = ACE_ERROR;
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} else {
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printf("Clock detected: %s\n", clk_name);
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}
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}
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// Read Activities
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if (!error) {
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error = ace_io_read_activity(ntk, IN_ACT, pi_format, p, d, clk_name);
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}
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if (!error) {
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error = ace_calc_activity(ntk, ACE_NUM_VECTORS, clk_name);
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}
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|
|
||
|
//Abc_NtkToSop(ntk, 0);
|
||
|
Abc_Ntk_t * new_ntk;
|
||
|
new_ntk = Abc_NtkToNetlist(ntk);
|
||
|
|
||
|
if (!error) {
|
||
|
ace_io_print_activity(ntk, OUT_ACT);
|
||
|
}
|
||
|
|
||
|
if (!error) {
|
||
|
Io_WriteHie(ntk, blif_file_name, new_blif_file_name);
|
||
|
printf("Done\n");
|
||
|
}
|
||
|
|
||
|
fflush(0);
|
||
|
return 0;
|
||
|
}
|