`include "tb_defines.v"
|
`include "tb_defines.v"
|
`timescale 1ns/1ns
|
`timescale 1ns/1ns
|
module versatile_mem_ctrl_tb
|
module versatile_mem_ctrl_tb
|
(
|
(
|
output OK
|
output OK
|
);
|
);
|
|
|
reg wb_clk, wb_rst;
|
reg wb_clk, wb_rst;
|
reg sdram_clk, sdram_rst;
|
reg sdram_clk, sdram_rst;
|
reg tb_rst;
|
reg tb_rst;
|
|
|
wire [31:0] wb0_dat_i;
|
wire [31:0] wb0_dat_i;
|
wire [3:0] wb0_sel_i;
|
wire [3:0] wb0_sel_i;
|
wire [31:0] wb0_adr_i;
|
wire [31:0] wb0_adr_i;
|
wire [2:0] wb0_cti_i;
|
wire [2:0] wb0_cti_i;
|
wire [1:0] wb0_bte_i;
|
wire [1:0] wb0_bte_i;
|
wire wb0_cyc_i;
|
wire wb0_cyc_i;
|
wire wb0_stb_i;
|
wire wb0_stb_i;
|
wire [31:0] wb0_dat_o;
|
wire [31:0] wb0_dat_o;
|
wire wb0_ack_o;
|
wire wb0_ack_o;
|
|
|
wire [31:0] wb1_dat_i;
|
wire [31:0] wb1_dat_i;
|
wire [3:0] wb1_sel_i;
|
wire [3:0] wb1_sel_i;
|
wire [31:0] wb1_adr_i;
|
wire [31:0] wb1_adr_i;
|
wire [2:0] wb1_cti_i;
|
wire [2:0] wb1_cti_i;
|
wire [1:0] wb1_bte_i;
|
wire [1:0] wb1_bte_i;
|
wire wb1_cyc_i;
|
wire wb1_cyc_i;
|
wire wb1_stb_i;
|
wire wb1_stb_i;
|
wire [31:0] wb1_dat_o;
|
wire [31:0] wb1_dat_o;
|
wire wb1_ack_o;
|
wire wb1_ack_o;
|
|
|
wire [31:0] wb4_dat_i;
|
wire [31:0] wb4_dat_i;
|
wire [3:0] wb4_sel_i;
|
wire [3:0] wb4_sel_i;
|
wire [31:0] wb4_adr_i;
|
wire [31:0] wb4_adr_i;
|
wire [2:0] wb4_cti_i;
|
wire [2:0] wb4_cti_i;
|
wire [1:0] wb4_bte_i;
|
wire [1:0] wb4_bte_i;
|
wire wb4_cyc_i;
|
wire wb4_cyc_i;
|
wire wb4_stb_i;
|
wire wb4_stb_i;
|
wire [31:0] wb4_dat_o;
|
wire [31:0] wb4_dat_o;
|
wire wb4_ack_o;
|
wire wb4_ack_o;
|
|
|
wire [1:0] ba, bad;
|
wire [1:0] ba, bad;
|
wire [12:0] a, ad;
|
wire [12:0] a, ad;
|
wire [15:0] dq_i;
|
wire [15:0] dq_i;
|
wire [15:0] dq_o;
|
wire [15:0] dq_o;
|
wire [15:0] dq_io;
|
wire [15:0] dq_io;
|
wire [1:0] dqs, dqs_n, dqs_i, dqs_o, dqs_n_i, dqs_n_o, dqs_io, dqs_n_io;
|
wire [1:0] dqs, dqs_n, dqs_i, dqs_o, dqs_n_i, dqs_n_o, dqs_io, dqs_n_io;
|
wire [1:0] dqm, dqmd, dm_rdqs;
|
wire [1:0] dqm, dqmd, dm_rdqs;
|
wire dq_oe, dqs_oe;
|
wire dq_oe, dqs_oe;
|
wire cs_n, cs_nd, ras, rasd, cas, casd, we, wed, cke, cked;
|
wire cs_n, cs_nd, ras, rasd, cas, casd, we, wed, cke, cked;
|
wire ck_fb_i, ck_fb_o;
|
wire ck_fb_i, ck_fb_o;
|
|
|
`ifdef SDR_16 // SDR SDRAM
|
`ifdef SDR_16 // SDR SDRAM
|
wb0 wb0i
|
wb0 wb0i
|
(
|
(
|
.adr(wb0_adr_i),
|
.adr(wb0_adr_i),
|
.bte(wb0_bte_i),
|
.bte(wb0_bte_i),
|
.cti(wb0_cti_i),
|
.cti(wb0_cti_i),
|
.cyc(wb0_cyc_i),
|
.cyc(wb0_cyc_i),
|
.dat(wb0_dat_i),
|
.dat(wb0_dat_i),
|
.sel(wb0_sel_i),
|
.sel(wb0_sel_i),
|
.stb(wb0_stb_i),
|
.stb(wb0_stb_i),
|
.we (wb0_we_i),
|
.we (wb0_we_i),
|
.ack(wb0_ack_o),
|
.ack(wb0_ack_o),
|
.clk(wb_clk),
|
.clk(wb_clk),
|
.dat_i(wb0_dat_o),
|
.dat_i(wb0_dat_o),
|
.reset(wb_rst)
|
.reset(wb_rst)
|
);
|
);
|
wb1 wb1i
|
wb1 wb1i
|
(
|
(
|
.adr(wb1_adr_i),
|
.adr(wb1_adr_i),
|
.bte(wb1_bte_i),
|
.bte(wb1_bte_i),
|
.cti(wb1_cti_i),
|
.cti(wb1_cti_i),
|
.cyc(wb1_cyc_i),
|
.cyc(wb1_cyc_i),
|
.dat(wb1_dat_i),
|
.dat(wb1_dat_i),
|
.sel(wb1_sel_i),
|
.sel(wb1_sel_i),
|
.stb(wb1_stb_i),
|
.stb(wb1_stb_i),
|
.we (wb1_we_i),
|
.we (wb1_we_i),
|
.ack(wb1_ack_o),
|
.ack(wb1_ack_o),
|
.clk(wb_clk),
|
.clk(wb_clk),
|
.dat_i(wb1_dat_o),
|
.dat_i(wb1_dat_o),
|
.reset(wb_rst)
|
.reset(wb_rst)
|
);
|
);
|
wb4 wb4i
|
wb4 wb4i
|
(
|
(
|
.adr(wb4_adr_i),
|
.adr(wb4_adr_i),
|
.bte(wb4_bte_i),
|
.bte(wb4_bte_i),
|
.cti(wb4_cti_i),
|
.cti(wb4_cti_i),
|
.cyc(wb4_cyc_i),
|
.cyc(wb4_cyc_i),
|
.dat(wb4_dat_i),
|
.dat(wb4_dat_i),
|
.sel(wb4_sel_i),
|
.sel(wb4_sel_i),
|
.stb(wb4_stb_i),
|
.stb(wb4_stb_i),
|
.we (wb4_we_i),
|
.we (wb4_we_i),
|
.ack(wb4_ack_o),
|
.ack(wb4_ack_o),
|
.clk(wb_clk),
|
.clk(wb_clk),
|
.dat_i(wb4_dat_o),
|
.dat_i(wb4_dat_o),
|
.reset(wb_rst)
|
.reset(wb_rst)
|
);
|
);
|
`endif
|
`endif
|
|
|
`ifdef DDR_16 // DDR2 SDRAM
|
`ifdef DDR_16 // DDR2 SDRAM
|
wb0_ddr wb0i
|
wb0_ddr wb0i
|
(
|
(
|
.adr(wb0_adr_i),
|
.adr(wb0_adr_i),
|
.bte(wb0_bte_i),
|
.bte(wb0_bte_i),
|
.cti(wb0_cti_i),
|
.cti(wb0_cti_i),
|
.cyc(wb0_cyc_i),
|
.cyc(wb0_cyc_i),
|
.dat(wb0_dat_i),
|
.dat(wb0_dat_i),
|
.sel(wb0_sel_i),
|
.sel(wb0_sel_i),
|
.stb(wb0_stb_i),
|
.stb(wb0_stb_i),
|
.we (wb0_we_i),
|
.we (wb0_we_i),
|
.ack(wb0_ack_o),
|
.ack(wb0_ack_o),
|
.clk(wb_clk),
|
.clk(wb_clk),
|
.dat_i(wb0_dat_o),
|
.dat_i(wb0_dat_o),
|
.reset(tb_rst)
|
.reset(tb_rst)
|
);
|
);
|
wb1_ddr wb1i
|
wb1_ddr wb1i
|
(
|
(
|
.adr(wb1_adr_i),
|
.adr(wb1_adr_i),
|
.bte(wb1_bte_i),
|
.bte(wb1_bte_i),
|
.cti(wb1_cti_i),
|
.cti(wb1_cti_i),
|
.cyc(wb1_cyc_i),
|
.cyc(wb1_cyc_i),
|
.dat(wb1_dat_i),
|
.dat(wb1_dat_i),
|
.sel(wb1_sel_i),
|
.sel(wb1_sel_i),
|
.stb(wb1_stb_i),
|
.stb(wb1_stb_i),
|
.we (wb1_we_i),
|
.we (wb1_we_i),
|
.ack(wb1_ack_o),
|
.ack(wb1_ack_o),
|
.clk(wb_clk),
|
.clk(wb_clk),
|
.dat_i(wb1_dat_o),
|
.dat_i(wb1_dat_o),
|
.reset(tb_rst)
|
.reset(tb_rst)
|
);
|
);
|
wb4_ddr wb4i
|
wb4_ddr wb4i
|
(
|
(
|
.adr(wb4_adr_i),
|
.adr(wb4_adr_i),
|
.bte(wb4_bte_i),
|
.bte(wb4_bte_i),
|
.cti(wb4_cti_i),
|
.cti(wb4_cti_i),
|
.cyc(wb4_cyc_i),
|
.cyc(wb4_cyc_i),
|
.dat(wb4_dat_i),
|
.dat(wb4_dat_i),
|
.sel(wb4_sel_i),
|
.sel(wb4_sel_i),
|
.stb(wb4_stb_i),
|
.stb(wb4_stb_i),
|
.we (wb4_we_i),
|
.we (wb4_we_i),
|
.ack(wb4_ack_o),
|
.ack(wb4_ack_o),
|
.clk(wb_clk),
|
.clk(wb_clk),
|
.dat_i(wb4_dat_o),
|
.dat_i(wb4_dat_o),
|
.reset(tb_rst)
|
.reset(tb_rst)
|
);
|
);
|
`endif
|
`endif
|
|
|
versatile_mem_ctrl_top # (
|
versatile_mem_ctrl_top # (
|
.nr_of_wb_clk_domains(2),
|
.nr_of_wb_clk_domains(2),
|
.nr_of_wb_ports_clk0(1),
|
.nr_of_wb_ports_clk0(1),
|
.nr_of_wb_ports_clk1(1),
|
.nr_of_wb_ports_clk1(1),
|
.nr_of_wb_ports_clk2(0),
|
.nr_of_wb_ports_clk2(0),
|
.nr_of_wb_ports_clk3(0))
|
.nr_of_wb_ports_clk3(0))
|
dut (
|
dut (
|
.wb_adr_i_0({{wb0_adr_i[31:2],wb0_we_i,wb0_bte_i,wb0_cti_i},{wb1_adr_i[31:2],wb1_we_i,wb1_bte_i,wb1_cti_i}}),
|
.wb_adr_i_0({{wb0_adr_i[31:2],wb0_we_i,wb0_bte_i,wb0_cti_i},{wb1_adr_i[31:2],wb1_we_i,wb1_bte_i,wb1_cti_i}}),
|
.wb_dat_i_0({{wb0_dat_i,wb0_sel_i},{wb1_dat_i,wb1_sel_i}}),
|
.wb_dat_i_0({{wb0_dat_i,wb0_sel_i},{wb1_dat_i,wb1_sel_i}}),
|
.wb_dat_o_0({wb0_dat_o,wb1_dat_o}),
|
.wb_dat_o_0({wb0_dat_o,wb1_dat_o}),
|
.wb_stb_i_0({wb0_stb_i,wb1_stb_i}),
|
.wb_stb_i_0({wb0_stb_i,wb1_stb_i}),
|
.wb_cyc_i_0({wb0_cyc_i,wb1_cyc_i}),
|
.wb_cyc_i_0({wb0_cyc_i,wb1_cyc_i}),
|
.wb_ack_o_0({wb0_ack_o,wb1_ack_o}),
|
.wb_ack_o_0({wb0_ack_o,wb1_ack_o}),
|
|
|
.wb_adr_i_1({wb4_adr_i[31:2],wb4_we_i,wb4_bte_i,wb4_cti_i}),
|
.wb_adr_i_1({wb4_adr_i[31:2],wb4_we_i,wb4_bte_i,wb4_cti_i}),
|
.wb_dat_i_1({wb4_dat_i,wb4_sel_i}),
|
.wb_dat_i_1({wb4_dat_i,wb4_sel_i}),
|
.wb_dat_o_1(wb4_dat_o),
|
.wb_dat_o_1(wb4_dat_o),
|
.wb_stb_i_1(wb4_stb_i),
|
.wb_stb_i_1(wb4_stb_i),
|
.wb_cyc_i_1(wb4_cyc_i),
|
.wb_cyc_i_1(wb4_cyc_i),
|
.wb_ack_o_1(wb4_ack_o),
|
.wb_ack_o_1(wb4_ack_o),
|
|
|
.wb_adr_i_2(2'b0),
|
.wb_adr_i_2(2'b0),
|
.wb_dat_i_2(2'b0),
|
.wb_dat_i_2(2'b0),
|
.wb_dat_o_2(),
|
.wb_dat_o_2(),
|
.wb_stb_i_2(2'b0),
|
.wb_stb_i_2(2'b0),
|
.wb_cyc_i_2(2'b0),
|
.wb_cyc_i_2(2'b0),
|
.wb_ack_o_2(),
|
.wb_ack_o_2(),
|
|
|
.wb_adr_i_3(2'b0),
|
.wb_adr_i_3(2'b0),
|
.wb_dat_i_3(2'b0),
|
.wb_dat_i_3(2'b0),
|
.wb_dat_o_3(),
|
.wb_dat_o_3(),
|
.wb_stb_i_3(2'b0),
|
.wb_stb_i_3(2'b0),
|
.wb_cyc_i_3(2'b0),
|
.wb_cyc_i_3(2'b0),
|
.wb_ack_o_3(),
|
.wb_ack_o_3(),
|
|
|
// SDR SDRAM 16
|
// SDR SDRAM 16
|
`ifdef SDR_16
|
`ifdef SDR_16
|
.ba_pad_o(ba),
|
.ba_pad_o(ba),
|
.a_pad_o(a),
|
.a_pad_o(a),
|
.cs_n_pad_o(cs_n),
|
.cs_n_pad_o(cs_n),
|
.ras_pad_o(ras),
|
.ras_pad_o(ras),
|
.cas_pad_o(cas),
|
.cas_pad_o(cas),
|
.we_pad_o(we),
|
.we_pad_o(we),
|
.dq_o(dq_o),
|
.dq_o(dq_o),
|
.dqm_pad_o(dqm),
|
.dqm_pad_o(dqm),
|
.dq_i(dq_i),
|
.dq_i(dq_i),
|
.dq_oe(dq_oe),
|
.dq_oe(dq_oe),
|
.cke_pad_o(cke),
|
.cke_pad_o(cke),
|
`endif
|
`endif
|
`ifdef DDR_16
|
`ifdef DDR_16
|
// DDR2 SDRAM 16
|
// DDR2 SDRAM 16
|
.ck_pad_o(ck),
|
.ck_pad_o(ck),
|
.ck_n_pad_o(ck_n),
|
.ck_n_pad_o(ck_n),
|
.cke_pad_o(cke),
|
.cke_pad_o(cke),
|
.ck_fb_pad_o(ck_fb_o),
|
.ck_fb_pad_o(ck_fb_o),
|
.ck_fb_pad_i(ck_fb_i),
|
.ck_fb_pad_i(ck_fb_i),
|
.cs_n_pad_o(cs_n),
|
.cs_n_pad_o(cs_n),
|
.ras_pad_o(ras),
|
.ras_pad_o(ras),
|
.cas_pad_o(cas),
|
.cas_pad_o(cas),
|
.we_pad_o(we),
|
.we_pad_o(we),
|
.dm_rdqs_pad_io(dm_rdqs),
|
.dm_rdqs_pad_io(dm_rdqs),
|
.ba_pad_o(ba),
|
.ba_pad_o(ba),
|
.addr_pad_o(a),
|
.addr_pad_o(a),
|
.dq_pad_io(dq_io),
|
.dq_pad_io(dq_io),
|
.dqs_pad_io(dqs_io),
|
.dqs_pad_io(dqs_io),
|
.dqs_oe(dqs_oe),
|
.dqs_oe(dqs_oe),
|
.dqs_n_pad_io(dqs_n_io),
|
.dqs_n_pad_io(dqs_n_io),
|
.rdqs_n_pad_i(),
|
.rdqs_n_pad_i(),
|
.odt_pad_o(),
|
.odt_pad_o(),
|
`endif
|
`endif
|
// misc
|
// misc
|
.wb_clk({wb_clk,wb_clk}),
|
.wb_clk({wb_clk,wb_clk}),
|
.wb_rst({wb_rst,wb_rst}),
|
.wb_rst({wb_rst,wb_rst}),
|
.sdram_clk(sdram_clk),
|
.sdram_clk(sdram_clk),
|
.sdram_rst(wb_rst)
|
.sdram_rst(wb_rst)
|
);
|
);
|
|
|
`ifdef SDR_16
|
`ifdef SDR_16
|
assign #1 dq_io = dq_oe ? dq_o : {16{1'bz}};
|
assign #1 dq_io = dq_oe ? dq_o : {16{1'bz}};
|
assign #1 dq_i = dq_io;
|
assign #1 dq_i = dq_io;
|
assign #1 dqmd = dqm;
|
assign #1 dqmd = dqm;
|
assign #1 dqs_io = dqs_oe ? dqs_o : {2{1'bz}};
|
assign #1 dqs_io = dqs_oe ? dqs_o : {2{1'bz}};
|
assign #1 dqs_i = dqs_io;
|
assign #1 dqs_i = dqs_io;
|
assign #1 dqs_n_io = dqs_oe ? dqs_n_o : {2{1'bz}};
|
assign #1 dqs_n_io = dqs_oe ? dqs_n_o : {2{1'bz}};
|
assign #1 dqs_n_i = dqs_n_io;
|
assign #1 dqs_n_i = dqs_n_io;
|
`endif
|
`endif
|
|
|
`ifdef DDR_16
|
`ifdef DDR_16
|
assign #1 dqmd = dqm;
|
assign #1 dqmd = dqm;
|
assign ck_fb_i = ck_fb_o;
|
assign ck_fb_i = ck_fb_o;
|
`endif
|
`endif
|
|
|
assign #1 ad = a;
|
assign #1 ad = a;
|
assign #1 bad = ba;
|
assign #1 bad = ba;
|
assign #1 cked = cke;
|
assign #1 cked = cke;
|
assign #1 cs_nd = cs_n;
|
assign #1 cs_nd = cs_n;
|
assign #1 rasd = ras;
|
assign #1 rasd = ras;
|
assign #1 casd = cas;
|
assign #1 casd = cas;
|
assign #1 wed = we;
|
assign #1 wed = we;
|
|
|
`ifdef SDR_16 // SDR SDRAM Simulation model
|
`ifdef SDR_16 // SDR SDRAM Simulation model
|
mt48lc16m16a2 sdram
|
mt48lc16m16a2 sdram
|
(
|
(
|
.Dq(dq_io),
|
.Dq(dq_io),
|
.Addr(ad),
|
.Addr(ad),
|
.Ba(bad),
|
.Ba(bad),
|
.Clk(sdram_clk),
|
.Clk(sdram_clk),
|
.Cke(cked),
|
.Cke(cked),
|
.Cs_n(cs_nd),
|
.Cs_n(cs_nd),
|
.Ras_n(rasd),
|
.Ras_n(rasd),
|
.Cas_n(casd),
|
.Cas_n(casd),
|
.We_n(wed),
|
.We_n(wed),
|
.Dqm(dqmd)
|
.Dqm(dqmd)
|
);
|
);
|
`endif
|
`endif
|
`ifdef DDR_16 // DDR2 SDRAM Simulation model
|
`ifdef DDR_16 // DDR2 SDRAM Simulation model
|
ddr2 ddr2_sdram
|
ddr2 ddr2_sdram
|
(
|
(
|
.ck(ck),
|
.ck(ck),
|
.ck_n(ck_n),
|
.ck_n(ck_n),
|
.cke(cke),
|
.cke(cke),
|
.cs_n(cs_n),
|
.cs_n(cs_n),
|
.ras_n(ras),
|
.ras_n(ras),
|
.cas_n(cas),
|
.cas_n(cas),
|
.we_n(we),
|
.we_n(we),
|
.dm_rdqs(dm_rdqs),
|
.dm_rdqs(dm_rdqs),
|
.ba(ba),
|
.ba(ba),
|
.addr(a),
|
.addr(a),
|
.dq(dq_io),
|
.dq(dq_io),
|
.dqs(dqs_io),
|
.dqs(dqs_io),
|
.dqs_n(dqs_n_io),
|
.dqs_n(dqs_n_io),
|
.rdqs_n(),
|
.rdqs_n(),
|
.odt()
|
.odt()
|
);
|
);
|
`endif
|
`endif
|
|
|
// Wishbone reset
|
// Wishbone reset
|
initial
|
initial
|
begin
|
begin
|
#0 wb_rst = 1'b1;
|
#0 wb_rst = 1'b1;
|
#200 wb_rst = 1'b1;
|
#200 wb_rst = 1'b1;
|
#200000 wb_rst = 1'b0;
|
#200000 wb_rst = 1'b0;
|
end
|
end
|
|
|
// SDRAM reset
|
// SDRAM reset
|
initial
|
initial
|
begin
|
begin
|
#0 sdram_rst = 1'b1;
|
#0 sdram_rst = 1'b1;
|
#200 sdram_rst = 1'b1;
|
#200 sdram_rst = 1'b1;
|
#200000 sdram_rst = 1'b0;
|
#200000 sdram_rst = 1'b0;
|
end
|
end
|
|
|
// Test bench reset
|
// Test bench reset
|
initial
|
initial
|
begin
|
begin
|
#0 tb_rst = 1'b1;
|
#0 tb_rst = 1'b1;
|
#200 tb_rst = 1'b1;
|
#200 tb_rst = 1'b1;
|
//#200000 tb_rst = 1'b0;
|
//#200000 tb_rst = 1'b0;
|
#300000 tb_rst = 1'b0; // hold reset to let initialization complete
|
#300000 tb_rst = 1'b0; // hold reset to let initialization complete
|
end
|
end
|
|
|
// Wishbone clock
|
// Wishbone clock
|
initial
|
initial
|
begin
|
begin
|
#0 wb_clk = 1'b0;
|
#0 wb_clk = 1'b0;
|
forever
|
forever
|
//#200 wb_clk = !wb_clk; // 2.5 MHz
|
//#200 wb_clk = !wb_clk; // 2.5 MHz
|
#20 wb_clk = !wb_clk; // 25 MHz
|
#20 wb_clk = !wb_clk; // 25 MHz
|
end
|
end
|
|
|
// SDRAM clock
|
// SDRAM clock
|
initial
|
initial
|
begin
|
begin
|
#0 sdram_clk = 1'b0;
|
#0 sdram_clk = 1'b0;
|
forever
|
forever
|
//#4 sdram_clk = !sdram_clk; // 125 MHz
|
#4 sdram_clk = !sdram_clk; // 125 MHz
|
#5 sdram_clk = !sdram_clk; // 100 MHz
|
//#5 sdram_clk = !sdram_clk; // 100 MHz
|
end
|
end
|
|
|
endmodule // versatile_mem_ctrl_tb
|
endmodule // versatile_mem_ctrl_tb
|
|
|