module modexpng_tdp_36k_x16_x32_wrapper_generic
(
clk, clk_bus,
ena, wea,
addra, dina, douta,
enb, regceb,
addrb, doutb
);
//
// Headers
//
`include "modexpng_parameters.vh"
//
// Ports
//
input clk;
input clk_bus;
input ena;
input wea;
input [BANK_ADDR_W + BUS_OP_ADDR_W -1:0] addra;
input [ BUS_DATA_W -1:0] dina;
output [ BUS_DATA_W -1:0] douta;
input enb;
input regceb;
input [BANK_ADDR_W + OP_ADDR_W -1:0] addrb;
output [ WORD_W -1:0] doutb;
//
// Memory
//
reg [BUS_DATA_W -1:0] mem[0:2**(BANK_ADDR_W+BUS_OP_ADDR_W)-1];
//
// Read-Write Port
//
reg [BUS_DATA_W -1:0] douta_reg;
assign douta = douta_reg;
always @(posedge clk_bus)
//
if (ena) begin
if (wea) mem[addra] <= dina;
douta_reg <= mem[addra];
end
//
// Read Port
//
reg [WORD_W -1:0] doutb_reg1;
reg [WORD_W -1:0] doutb_reg2;
assign doutb = doutb_reg2;
wire [BUS_DATA_W -1:0] mem_addrb = mem[addrb[BANK_ADDR_W + OP_ADDR_W -1:1]];
wire [ WORD_W -1:0] mem_addrb_msb = mem_addrb[ BUS_DATA_W -1:WORD_W];
wire [ WORD_W -1:0] mem_addrb_lsb = mem_addrb[ WORD_W -1: 0];
always @(posedge clk)
//
if (enb)
doutb_reg1 <= addrb[0] ? mem_addrb_msb : mem_addrb_lsb;
always @(posedge clk)
//
if (regceb)
doutb_reg2 <= doutb_reg1;
/*
//
// BRAM_TDP_MACRO
//
BRAM_TDP_MACRO #
(
.DEVICE ("7SERIES"),
.BRAM_SIZE ("36Kb"),
.WRITE_WIDTH_A (BUS_DATA_W),
.READ_WIDTH_A (BUS_DATA_W),
.WRITE_WIDTH_B (WORD_W),
.READ_WIDTH_B (WORD_W),
.DOA_REG (0),
.DOB_REG (1),
.WRITE_MODE_A ("READ_FIRST"),
.WRITE_MODE_B ("READ_FIRST"),
.SRVAL_A (36'h000000000),
.SRVAL_B (36'h000000000),
.INIT_A (36'h000000000),
.INIT_B (36'h000000000),
.INIT_FILE ("NONE"),
.SIM_COLLISION_CHECK ("NONE")
)
BRAM_TDP_MACRO_inst
(
.RSTA (1'b0),
.RSTB (1'b0),
.CLKA (clk_bus),
.ENA (ena),
.REGCEA (1'b0),
.WEA ({4{wea}}),
.ADDRA (addra),
.DIA (dina),
.DOA (douta),
.CLKB (clk),
.ENB (enb),
.REGCEB (regceb),
.WEB ({2{1'b0}}),
.ADDRB (addrb),
.DIB ({WORD_W{1'b0}}),
.DOB (doutb)
);
*/
endmodule