blob: 8688f9a0e2dcd515d2d0b6083a80045543e7e5e8 [file] [log] [blame]
module mem_wb (
`ifdef USE_POWER_PINS
input VPWR,
input VGND,
`endif
input wb_clk_i,
input wb_rst_i,
input [31:0] wb_adr_i,
input [31:0] wb_dat_i,
input [3:0] wb_sel_i,
input wb_we_i,
input wb_cyc_i,
input wb_stb_i,
output wb_ack_o,
output [31:0] wb_dat_o
);
localparam ADR_WIDTH = $clog2(`MEM_WORDS);
wire valid;
wire ram_wen;
wire [3:0] wen; // write enable
assign valid = wb_cyc_i & wb_stb_i;
assign ram_wen = wb_we_i && valid;
assign wen = wb_sel_i & {4{ram_wen}} ;
/*
Ack Generation
- write transaction: asserted upon receiving adr_i & dat_i
- read transaction : asserted one clock cycle after receiving the adr_i & dat_i
*/
reg wb_ack_read;
reg wb_ack_o;
always @(posedge wb_clk_i) begin
if (wb_rst_i == 1'b 1) begin
wb_ack_read <= 1'b0;
wb_ack_o <= 1'b0;
end else begin
// wb_ack_read <= {2{valid}} & {1'b1, wb_ack_read[1]};
wb_ack_o <= wb_we_i? (valid & !wb_ack_o): wb_ack_read;
wb_ack_read <= (valid & !wb_ack_o) & !wb_ack_read;
end
end
soc_mem
`ifndef USE_OPENRAM
#(
.WORDS(`MEM_WORDS),
.ADR_WIDTH(ADR_WIDTH)
)
`endif
mem (
`ifdef USE_POWER_PINS
.VPWR(VPWR),
.VGND(VGND),
`endif
.clk(wb_clk_i),
.ena(valid),
.wen(wen),
.addr(wb_adr_i[ADR_WIDTH+1:2]),
.wdata(wb_dat_i),
.rdata(wb_dat_o)
);
endmodule
module soc_mem
`ifndef USE_OPENRAM
#(
parameter integer WORDS = 256,
parameter ADR_WIDTH = 8
)
`endif
(
`ifdef USE_POWER_PINS
input VPWR,
input VGND,
`endif
input clk,
input ena,
input [3:0] wen,
input [ADR_WIDTH-1:0] addr,
input [31:0] wdata,
output[31:0] rdata
);
`ifndef USE_OPENRAM
DFFRAM #(.COLS(`COLS)) SRAM (
`ifdef USE_POWER_PINS
.VPWR(VPWR),
.VGND(VGND),
`endif
.CLK(clk),
.WE(wen),
.EN(ena),
.Di(wdata),
.Do(rdata),
// 8-bit address if using the default custom DFF RAM
.A(addr)
);
`else
/* Using Port 0 Only - Size: 1KB, 256x32 bits */
//sram_1rw1r_32_256_8_scn4m_subm
sram_1rw1r_32_256_8_sky130 SRAM(
.clk0(clk),
.csb0(~ena),
.web0(~|wen),
.wmask0(wen),
.addr0(addr[7:0]),
.din0(wdata),
.dout0(rdata)
);
`endif
endmodule