/***********************************/ /* SPICE Modeling for VPR */ /* Xifan TANG, EPFL/LSI */ /***********************************/ #include #include #include #include #include #include #include #include /* Include vpr structs*/ #include "util.h" #include "physical_types.h" #include "vpr_types.h" #include "globals.h" #include "rr_graph.h" #include "rr_graph_swseg.h" #include "vpr_utils.h" #include "route_common.h" /* Include spice support headers*/ #include "linkedlist.h" #include "fpga_x2p_types.h" #include "fpga_x2p_globals.h" #include "spice_globals.h" #include "fpga_x2p_utils.h" #include "fpga_x2p_pbtypes_utils.h" #include "fpga_x2p_bitstream_utils.h" #include "spice_utils.h" #include "spice_pbtypes.h" #include "spice_primitive.h" void fprint_pb_primitive_generic(FILE* fp, char* subckt_prefix, t_phy_pb* prim_phy_pb, t_pb_type* prim_pb_type, int index, t_spice_model* spice_model) { int num_sram_port = 0; int i; int num_sram = 0; int expected_num_sram = 0; int* sram_bits = NULL; int cur_num_sram = 0; int mapped_logical_block_index = OPEN; char* formatted_subckt_prefix = format_spice_node_prefix(subckt_prefix); /* Complete a "_" at the end if needed*/ char* port_prefix = NULL; char* sram_vdd_port_name = NULL; /* Ensure a valid file handler*/ if (NULL == fp) { vpr_printf(TIO_MESSAGE_ERROR,"(File:%s,[LINE%d])Invalid file handler!\n", __FILE__, __LINE__); exit(1); } /* Asserts */ assert((SPICE_MODEL_FF == spice_model->type) ||(SPICE_MODEL_HARDLOGIC == spice_model->type) ||(SPICE_MODEL_IOPAD == spice_model->type)); /* Find mapped logical block */ if (NULL != prim_phy_pb) { for (i = 0; i < prim_phy_pb->num_logical_blocks; i++) { mapped_logical_block_index = prim_phy_pb->logical_block[i]; /* Back-annotate to logical block */ logical_block[mapped_logical_block_index].mapped_spice_model = spice_model; logical_block[mapped_logical_block_index].mapped_spice_model_index = spice_model->cnt; fprintf(fp, "***** Logical block mapped to this primitive node: %s *****\n", logical_block[mapped_logical_block_index].name); } } /* Generate Subckt for pb_type*/ /* port_prefix = (char*)my_malloc(sizeof(char)* (strlen(formatted_subckt_prefix) + strlen(prim_pb_type->name) + 1 + strlen(my_itoa(index)) + 1 + 1)); sprintf(port_prefix, "%s%s[%d]", formatted_subckt_prefix, prim_pb_type->name, index); */ /* Simplify the port prefix, make SPICE netlist readable */ port_prefix = (char*)my_malloc(sizeof(char)* (strlen(prim_pb_type->name) + 1 + strlen(my_itoa(index)) + 1 + 1)); sprintf(port_prefix, "%s[%d]", prim_pb_type->name, index); /* Decode SRAM bits */ num_sram = count_num_sram_bits_one_spice_model(spice_model, -1); /* what is the SRAM bit of a mode? */ /* If logical block is not NULL, we need to decode the sram bit */ if ( 0 < num_sram_port) { assert (1 == num_sram_port); if (NULL != prim_phy_pb) { sram_bits = decode_mode_bits(prim_phy_pb->mode_bits, &expected_num_sram); } else { /* get default mode_bits */ sram_bits = decode_mode_bits(prim_pb_type->mode_bits, &expected_num_sram); } assert(expected_num_sram == num_sram); } /* Get current counter of mem_bits, bl and wl */ cur_num_sram = get_sram_orgz_info_num_mem_bit(sram_spice_orgz_info); /* Definition line */ fprintf(fp, ".subckt %s%s ", formatted_subckt_prefix, port_prefix); /* print ports*/ fprint_pb_type_ports(fp, port_prefix, 0, prim_pb_type); /* Local vdd and gnd*/ fprintf(fp, "svdd sgnd\n"); /* Definition ends*/ /* Call the iopad subckt*/ fprintf(fp, "X%s[%d] ", spice_model->prefix, spice_model->cnt); /* Only dump the global ports belonging to a spice_model * Do not go recursive, we can freely define global ports anywhere in SPICE netlist */ if (0 < rec_fprint_spice_model_global_ports(fp, spice_model, FALSE)) { fprintf(fp, "+ "); } /* print regular ports*/ fprint_pb_type_ports(fp, port_prefix, 0, prim_pb_type); /* Print inout port */ if (SPICE_MODEL_IOPAD == spice_model->type) { fprintf(fp, " %s%s[%d] ", gio_inout_prefix, spice_model->prefix, spice_model->cnt); } /* Print SRAM ports */ for (i = 0; i < num_sram; i++) { fprint_spice_sram_one_outport(fp, sram_spice_orgz_info, cur_num_sram + i, sram_bits[i]); /* We need the invertered signal for better convergency */ fprint_spice_sram_one_outport(fp, sram_spice_orgz_info, cur_num_sram + i, 1 - sram_bits[i]); } /* Local vdd and gnd, spice_model name, * TODO: Global vdd for i/o pad to split? */ fprintf(fp, "%s_%s[%d] sgnd %s\n", spice_tb_global_vdd_port_name, spice_model->prefix, spice_model->cnt, spice_model->name); /* Print the encoding in SPICE netlist for debugging */ fprintf(fp, "***** SRAM bits for %s[%d] *****\n", spice_model->prefix, spice_model->cnt); fprintf(fp, "*****"); for (i = 0; i < num_sram; i++) { fprintf(fp, "%d", sram_bits[i]); } fprintf(fp, "*****\n"); /* Call SRAM subckts*/ /* Give the VDD port name for SRAMs */ sram_vdd_port_name = (char*)my_malloc(sizeof(char)* (strlen(spice_tb_global_vdd_io_sram_port_name) + 1 )); sprintf(sram_vdd_port_name, "%s", spice_tb_global_vdd_io_sram_port_name); /* Now Print SRAMs one by one */ for (i = 0; i < num_sram; i++) { fprint_spice_one_sram_subckt(fp, sram_spice_orgz_info, spice_model, sram_vdd_port_name); } /* Store the configuraion bit to linked-list */ add_sram_conf_bits_to_llist(sram_spice_orgz_info, cur_num_sram, num_sram, sram_bits); /* End */ fprintf(fp, ".eom\n"); /* Update the spice_model counter */ spice_model->cnt++; /*Free*/ my_free(formatted_subckt_prefix); my_free(port_prefix); my_free(sram_vdd_port_name); return; }