一、概述
在之前的章节中讲述了ddr4的写模块和读模块接口信号和模块功能及时序分析,接下来继续沿着思路向下讲解,在之前的章节中给出了测试模块,和interconnect RTL IP核和DDR4 IP核的例化模版,也给出了ddr4的读写模块讲解。在本章节我们来把上述模块和IP使用信号连接,组成一个测试工程。
二、工程模块框架
在之前章节中,我们已经给出了测试模块(chnl_test)、ddr4写模块(ddr4_axi_wr_ctrl)、ddr4读模块(ddr4_axi_rd_ctrl)的接口信号,因为要创建4个通道的读写功能,所以需要将ddr4的读写模块例化4组,将每一组的接口信号连接到对应测试模块和对应的interconnect的axi4从端口。
三、Interconnect RTL IP例化接口信号
axi_interconnect_0 axi_interconnect_0 (
.INTERCONNECT_ACLK(c0_ddr4_clk), // input wire INTERCONNECT_ACLK
.INTERCONNECT_ARESETN(~c0_ddr4_rst), // | ~(c0_init_calib_complete)), // input wire INTERCONNECT_ARESETN
//chnl 0
.S00_AXI_ARESET_OUT_N(S00_AXI_ARESET_OUT_N), // output wire S00_AXI_ARESET_OUT_N
.S00_AXI_ACLK(clk_75m), // input wire S00_AXI_ACLK
.S00_AXI_AWID(S00_AXI_AWID), // input wire [3 : 0] S00_AXI_AWID
.S00_AXI_AWADDR(S00_AXI_AWADDR), // input wire [31 : 0] S00_AXI_AWADDR
.S00_AXI_AWLEN(S00_AXI_AWLEN), // input wire [7 : 0] S00_AXI_AWLEN
.S00_AXI_AWSIZE(S00_AXI_AWSIZE), // input wire [2 : 0] S00_AXI_AWSIZE
.S00_AXI_AWBURST(S00_AXI_AWBURST), // input wire [1 : 0] S00_AXI_AWBURST
.S00_AXI_AWLOCK(S00_AXI_AWLOCK), // input wire S00_AXI_AWLOCK
.S00_AXI_AWCACHE(S00_AXI_AWCACHE), // input wire [3 : 0] S00_AXI_AWCACHE
.S00_AXI_AWPROT(S00_AXI_AWPROT), // input wire [2 : 0] S00_AXI_AWPROT
.S00_AXI_AWQOS(S00_AXI_AWQOS), // input wire [3 : 0] S00_AXI_AWQOS
.S00_AXI_AWVALID(S00_AXI_AWVALID), // input wire S00_AXI_AWVALID
.S00_AXI_AWREADY(S00_AXI_AWREADY), // output wire S00_AXI_AWREADY
.S00_AXI_WDATA(S00_AXI_WDATA), // input wire [511 : 0] S00_AXI_WDATA
.S00_AXI_WSTRB(S00_AXI_WSTRB), // input wire [63 : 0] S00_AXI_WSTRB
.S00_AXI_WLAST(S00_AXI_WLAST), // input wire S00_AXI_WLAST
.S00_AXI_WVALID(S00_AXI_WVALID), // input wire S00_AXI_WVALID
.S00_AXI_WREADY(S00_AXI_WREADY), // output wire S00_AXI_WREADY
.S00_AXI_BID(S00_AXI_BID), // output wire [3 : 0] S00_AXI_BID
.S00_AXI_BRESP(S00_AXI_BRESP), // output wire [1 : 0] S00_AXI_BRESP
.S00_AXI_BVALID(S00_AXI_BVALID), // output wire S00_AXI_BVALID
.S00_AXI_BREADY(S00_AXI_BREADY), // input wire S00_AXI_BREADY
.S00_AXI_ARID(S00_AXI_ARID), // input wire [3 : 0] S00_AXI_ARID
.S00_AXI_ARADDR(S00_AXI_ARADDR), // input wire [31 : 0] S00_AXI_ARADDR
.S00_AXI_ARLEN(S00_AXI_ARLEN), // input wire [7 : 0] S00_AXI_ARLEN
.S00_AXI_ARSIZE(S00_AXI_ARSIZE), // input wire [2 : 0] S00_AXI_ARSIZE
.S00_AXI_ARBURST(S00_AXI_ARBURST), // input wire [1 : 0] S00_AXI_ARBURST
.S00_AXI_ARLOCK(S00_AXI_ARLOCK), // input wire S00_AXI_ARLOCK
.S00_AXI_ARCACHE(S00_AXI_ARCACHE), // input wire [3 : 0] S00_AXI_ARCACHE
.S00_AXI_ARPROT(S00_AXI_ARPROT), // input wire [2 : 0] S00_AXI_ARPROT
.S00_AXI_ARQOS(S00_AXI_ARQOS), // input wire [3 : 0] S00_AXI_ARQOS
.S00_AXI_ARVALID(S00_AXI_ARVALID), // input wire S00_AXI_ARVALID
.S00_AXI_ARREADY(S00_AXI_ARREADY), // output wire S00_AXI_ARREADY
.S00_AXI_RID(S00_AXI_RID), // output wire [3 : 0] S00_AXI_RID
.S00_AXI_RDATA(S00_AXI_RDATA), // output wire [511 : 0] S00_AXI_RDATA
.S00_AXI_RRESP(S00_AXI_RRESP), // output wire [1 : 0] S00_AXI_RRESP
.S00_AXI_RLAST(S00_AXI_RLAST), // output wire S00_AXI_RLAST
.S00_AXI_RVALID(S00_AXI_RVALID), // output wire S00_AXI_RVALID
.S00_AXI_RREADY(S00_AXI_RREADY), // input wire S00_AXI_RREADY
//chnl 1
.S01_AXI_ARESET_OUT_N(S01_AXI_ARESET_OUT_N), // output wire S01_AXI_ARESET_OUT_N
.S01_AXI_ACLK(clk_125m), // input wire S01_AXI_ACLK
.S01_AXI_AWID(S01_AXI_AWID), // input wire [3 : 0] S01_AXI_AWID
.S01_AXI_AWADDR(S01_AXI_AWADDR), // input wire [31 : 0] S01_AXI_AWADDR
.S01_AXI_AWLEN(S01_AXI_AWLEN), // input wire [7 : 0] S01_AXI_AWLEN
.S01_AXI_AWSIZE(S01_AXI_AWSIZE), // input wire [2 : 0] S01_AXI_AWSIZE
.S01_AXI_AWBURST(S01_AXI_AWBURST), // input wire [1 : 0] S01_AXI_AWBURST
.S01_AXI_AWLOCK(S01_AXI_AWLOCK), // input wire S01_AXI_AWLOCK
.S01_AXI_AWCACHE(S01_AXI_AWCACHE), // input wire [3 : 0] S01_AXI_AWCACHE
.S01_AXI_AWPROT(S01_AXI_AWPROT), // input wire [2 : 0] S01_AXI_AWPROT
.S01_AXI_AWQOS(S01_AXI_AWQOS), // input wire [3 : 0] S01_AXI_AWQOS
.S01_AXI_AWVALID(S01_AXI_AWVALID), // input wire S01_AXI_AWVALID
.S01_AXI_AWREADY(S01_AXI_AWREADY), // output wire S01_AXI_AWREADY
.S01_AXI_WDATA(S01_AXI_WDATA), // input wire [511 : 0] S01_AXI_WDATA
.S01_AXI_WSTRB(S01_AXI_WSTRB), // input wire [63 : 0] S01_AXI_WSTRB
.S01_AXI_WLAST(S01_AXI_WLAST), // input wire S01_AXI_WLAST
.S01_AXI_WVALID(S01_AXI_WVALID), // input wire S01_AXI_WVALID
.S01_AXI_WREADY(S01_AXI_WREADY), // output wire S01_AXI_WREADY
.S01_AXI_BID(S01_AXI_BID), // output wire [3 : 0] S01_AXI_BID
.S01_AXI_BRESP(S01_AXI_BRESP), // output wire [1 : 0] S01_AXI_BRESP
.S01_AXI_BVALID(S01_AXI_BVALID), // output wire S01_AXI_BVALID
.S01_AXI_BREADY(S01_AXI_BREADY), // input wire S01_AXI_BREADY
.S01_AXI_ARID(S01_AXI_ARID), // input wire [3 : 0] S01_AXI_ARID
.S01_AXI_ARADDR(S01_AXI_ARADDR), // input wire [31 : 0] S01_AXI_ARADDR
.S01_AXI_ARLEN(S01_AXI_ARLEN), // input wire [7 : 0] S01_AXI_ARLEN
.S01_AXI_ARSIZE(S01_AXI_ARSIZE), // input wire [2 : 0] S01_AXI_ARSIZE
.S01_AXI_ARBURST(S01_AXI_ARBURST), // input wire [1 : 0] S01_AXI_ARBURST
.S01_AXI_ARLOCK(S01_AXI_ARLOCK), // input wire S01_AXI_ARLOCK
.S01_AXI_ARCACHE(S01_AXI_ARCACHE), // input wire [3 : 0] S01_AXI_ARCACHE
.S01_AXI_ARPROT(S01_AXI_ARPROT), // input wire [2 : 0] S01_AXI_ARPROT
.S01_AXI_ARQOS(S01_AXI_ARQOS), // input wire [3 : 0] S01_AXI_ARQOS
.S01_AXI_ARVALID(S01_AXI_ARVALID), // input wire S01_AXI_ARVALID
.S01_AXI_ARREADY(S01_AXI_ARREADY), // output wire S01_AXI_ARREADY
.S01_AXI_RID(S01_AXI_RID), // output wire [3 : 0] S01_AXI_RID
.S01_AXI_RDATA(S01_AXI_RDATA), // output wire [511 : 0] S01_AXI_RDATA
.S01_AXI_RRESP(S01_AXI_RRESP), // output wire [1 : 0] S01_AXI_RRESP
.S01_AXI_RLAST(S01_AXI_RLAST), // output wire S01_AXI_RLAST
.S01_AXI_RVALID(S01_AXI_RVALID), // output wire S01_AXI_RVALID
.S01_AXI_RREADY(S01_AXI_RREADY), // input wire S01_AXI_RREADY
//chnl 2
.S02_AXI_ARESET_OUT_N(S02_AXI_ARESET_OUT_N), // output wire S02_AXI_ARESET_OUT_N
.S02_AXI_ACLK(clk_75m), // input wire S02_AXI_ACLK
.S02_AXI_AWID(S02_AXI_AWID), // input wire [3 : 0] S02_AXI_AWID
.S02_AXI_AWADDR(S02_AXI_AWADDR), // input wire [31 : 0] S02_AXI_AWADDR
.S02_AXI_AWLEN(S02_AXI_AWLEN), // input wire [7 : 0] S02_AXI_AWLEN
.S02_AXI_AWSIZE(S02_AXI_AWSIZE), // input wire [2 : 0] S02_AXI_AWSIZE
.S02_AXI_AWBURST(S02_AXI_AWBURST), // input wire [1 : 0] S02_AXI_AWBURST
.S02_AXI_AWLOCK(S02_AXI_AWLOCK), // input wire S02_AXI_AWLOCK
.S02_AXI_AWCACHE(S02_AXI_AWCACHE), // input wire [3 : 0] S02_AXI_AWCACHE
.S02_AXI_AWPROT(S02_AXI_AWPROT), // input wire [2 : 0] S02_AXI_AWPROT
.S02_AXI_AWQOS(S02_AXI_AWQOS), // input wire [3 : 0] S02_AXI_AWQOS
.S02_AXI_AWVALID(S02_AXI_AWVALID), // input wire S02_AXI_AWVALID
.S02_AXI_AWREADY(S02_AXI_AWREADY), // output wire S02_AXI_AWREADY
.S02_AXI_WDATA(S02_AXI_WDATA), // input wire [511 : 0] S02_AXI_WDATA
.S02_AXI_WSTRB(S02_AXI_WSTRB), // input wire [63 : 0] S02_AXI_WSTRB
.S02_AXI_WLAST(S02_AXI_WLAST), // input wire S02_AXI_WLAST
.S02_AXI_WVALID(S02_AXI_WVALID), // input wire S02_AXI_WVALID
.S02_AXI_WREADY(S02_AXI_WREADY), // output wire S02_AXI_WREADY
.S02_AXI_BID(S02_AXI_BID), // output wire [3 : 0] S02_AXI_BID
.S02_AXI_BRESP(S02_AXI_BRESP), // output wire [1 : 0] S02_AXI_BRESP
.S02_AXI_BVALID(S02_AXI_BVALID), // output wire S02_AXI_BVALID
.S02_AXI_BREADY(S02_AXI_BREADY), // input wire S02_AXI_BREADY
.S02_AXI_ARID(S02_AXI_ARID), // input wire [3 : 0] S02_AXI_ARID
.S02_AXI_ARADDR(S02_AXI_ARADDR), // input wire [31 : 0] S02_AXI_ARADDR
.S02_AXI_ARLEN(S02_AXI_ARLEN), // input wire [7 : 0] S02_AXI_ARLEN
.S02_AXI_ARSIZE(S02_AXI_ARSIZE), // input wire [2 : 0] S02_AXI_ARSIZE
.S02_AXI_ARBURST(S02_AXI_ARBURST), // input wire [1 : 0] S02_AXI_ARBURST
.S02_AXI_ARLOCK(S02_AXI_ARLOCK), // input wire S02_AXI_ARLOCK
.S02_AXI_ARCACHE(S02_AXI_ARCACHE), // input wire [3 : 0] S02_AXI_ARCACHE
.S02_AXI_ARPROT(S02_AXI_ARPROT), // input wire [2 : 0] S02_AXI_ARPROT
.S02_AXI_ARQOS(S02_AXI_ARQOS), // input wire [3 : 0] S02_AXI_ARQOS
.S02_AXI_ARVALID(S02_AXI_ARVALID), // input wire S02_AXI_ARVALID
.S02_AXI_ARREADY(S02_AXI_ARREADY), // output wire S02_AXI_ARREADY
.S02_AXI_RID(S02_AXI_RID), // output wire [3 : 0] S02_AXI_RID
.S02_AXI_RDATA(S02_AXI_RDATA), // output wire [511 : 0] S02_AXI_RDATA
.S02_AXI_RRESP(S02_AXI_RRESP), // output wire [1 : 0] S02_AXI_RRESP
.S02_AXI_RLAST(S02_AXI_RLAST), // output wire S02_AXI_RLAST
.S02_AXI_RVALID(S02_AXI_RVALID), // output wire S02_AXI_RVALID
.S02_AXI_RREADY(S02_AXI_RREADY), // input wire S02_AXI_RREADY
//chnl 3
.S03_AXI_ARESET_OUT_N(S03_AXI_ARESET_OUT_N), // output wire S03_AXI_ARESET_OUT_N
.S03_AXI_ACLK(clk_75m), // input wire S03_AXI_ACLK
.S03_AXI_AWID(S03_AXI_AWID), // input wire [3 : 0] S03_AXI_AWID
.S03_AXI_AWADDR(S03_AXI_AWADDR), // input wire [31 : 0] S03_AXI_AWADDR
.S03_AXI_AWLEN(S03_AXI_AWLEN), // input wire [7 : 0] S03_AXI_AWLEN
.S03_AXI_AWSIZE(S03_AXI_AWSIZE), // input wire [2 : 0] S03_AXI_AWSIZE
.S03_AXI_AWBURST(S03_AXI_AWBURST), // input wire [1 : 0] S03_AXI_AWBURS
.S03_AXI_AWLOCK(S03_AXI_AWLOCK), // input wire S03_AXI_AWLOCK
.S03_AXI_AWCACHE(S03_AXI_AWCACHE), // input wire [3 : 0] S03_AXI_AWCACHE
.S03_AXI_AWPROT(S03_AXI_AWPROT), // input wire [2 : 0] S03_AXI_AWPROT
.S03_AXI_AWQOS(S03_AXI_AWQOS), // input wire [3 : 0] S03_AXI_AWQOS
.S03_AXI_AWVALID(S03_AXI_AWVALID), // input wire S03_AXI_AWVALID
.S03_AXI_AWREADY(S03_AXI_AWREADY), // output wire S03_AXI_AWREADY
.S03_AXI_WDATA(S03_AXI_WDATA), // input wire [511 : 0] S03_AXI_WDATA
.S03_AXI_WSTRB(S03_AXI_WSTRB), // input wire [63 : 0] S03_AXI_WSTRB
.S03_AXI_WLAST(S03_AXI_WLAST), // input wire S03_AXI_WLAST
.S03_AXI_WVALID(S03_AXI_WVALID), // input wire S03_AXI_WVALID
.S03_AXI_WREADY(S03_AXI_WREADY), // output wire S03_AXI_WREADY
.S03_AXI_BID(S03_AXI_BID), // output wire [3 : 0] S03_AXI_BID
.S03_AXI_BRESP(S03_AXI_BRESP), // output wire [1 : 0] S03_AXI_BRESP
.S03_AXI_BVALID(S03_AXI_BVALID), // output wire S03_AXI_BVALID
.S03_AXI_BREADY(S03_AXI_BREADY), // input wire S03_AXI_BREADY
.S03_AXI_ARID(S03_AXI_ARID), // input wire [3 : 0] S03_AXI_ARID
.S03_AXI_ARADDR(S03_AXI_ARADDR), // input wire [31 : 0] S03_AXI_ARADDR
.S03_AXI_ARLEN(S03_AXI_ARLEN), // input wire [7 : 0] S03_AXI_ARLEN
.S03_AXI_ARSIZE(S03_AXI_ARSIZE), // input wire [2 : 0] S03_AXI_ARSIZE
.S03_AXI_ARBURST(S03_AXI_ARBURST), // input wire [1 : 0] S03_AXI_ARBURST
.S03_AXI_ARLOCK(S03_AXI_ARLOCK), // input wire S03_AXI_ARLOCK
.S03_AXI_ARCACHE(S03_AXI_ARCACHE), // input wire [3 : 0] S03_AXI_ARCACHE
.S03_AXI_ARPROT(S03_AXI_ARPROT), // input wire [2 : 0] S03_AXI_ARPROT
.S03_AXI_ARQOS(S03_AXI_ARQOS), // input wire [3 : 0] S03_AXI_ARQOS
.S03_AXI_ARVALID(S03_AXI_ARVALID), // input wire S03_AXI_ARVALID
.S03_AXI_ARREADY(S03_AXI_ARREADY), // output wire S03_AXI_ARREADY
.S03_AXI_RID(S03_AXI_RID), // output wire [3 : 0] S03_AXI_RID
.S03_AXI_RDATA(S03_AXI_RDATA), // output wire [511 : 0] S03_AXI_RDATA
.S03_AXI_RRESP(S03_AXI_RRESP), // output wire [1 : 0] S03_AXI_RRESP
.S03_AXI_RLAST(S03_AXI_RLAST), // output wire S03_AXI_RLAST
.S03_AXI_RVALID(S03_AXI_RVALID), // output wire S03_AXI_RVALID
.S03_AXI_RREADY(S03_AXI_RREADY), // input wire S03_AXI_RREADY
//master
//ddr4 awaddr
.M00_AXI_ARESET_OUT_N(c0_ddr4_aresetn_n), // output wire M00_AXI_ARESET_OUT_N
.M00_AXI_ACLK(c0_ddr4_clk), // input wire M00_AXI_ACLK
.M00_AXI_AWID(c0_ddr4_s_axi_awid), // output wire [7 : 0] M00_AXI_AWID
.M00_AXI_AWADDR(c0_ddr4_s_axi_awaddr), // output wire [31 : 0] M00_AXI_AWADDR
.M00_AXI_AWLEN(c0_ddr4_s_axi_awlen), // output wire [7 : 0] M00_AXI_AWLEN
.M00_AXI_AWSIZE(c0_ddr4_s_axi_awsize), // output wire [2 : 0] M00_AXI_AWSIZE
.M00_AXI_AWBURST(c0_ddr4_s_axi_awburst), // output wire [1 : 0] M00_AXI_AWBURST
.M00_AXI_AWLOCK(c0_ddr4_s_axi_awlock), // output wire M00_AXI_AWLOCK
.M00_AXI_AWCACHE(c0_ddr4_s_axi_awcache), // output wire [3 : 0] M00_AXI_AWCACHE
.M00_AXI_AWPROT(c0_ddr4_s_axi_awprot), // output wire [2 : 0] M00_AXI_AWPROT
.M00_AXI_AWQOS(c0_ddr4_s_axi_awqos), // output wire [3 : 0] M00_AXI_AWQOS
.M00_AXI_AWVALID(c0_ddr4_s_axi_awvalid), // output wire M00_AXI_AWVALID
.M00_AXI_AWREADY(c0_ddr4_s_axi_awready), // input wire M00_AXI_AWREADY
//ddr4 wdata
.M00_AXI_WDATA(c0_ddr4_s_axi_wdata), // output wire [511 : 0] M00_AXI_WDATA
.M00_AXI_WSTRB(c0_ddr4_s_axi_wstrb), // output wire [63 : 0] M00_AXI_WSTRB
.M00_AXI_WLAST(c0_ddr4_s_axi_wlast), // output wire M00_AXI_WLAST
.M00_AXI_WVALID(c0_ddr4_s_axi_wvalid), // output wire M00_AXI_WVALID
.M00_AXI_WREADY(c0_ddr4_s_axi_wready), // input wire M00_AXI_WREADY
//ddr4 w bresp
.M00_AXI_BID(c0_ddr4_s_axi_bid), // input wire [7 : 0] M00_AXI_BID
.M00_AXI_BRESP(c0_ddr4_s_axi_bresp), // input wire [1 : 0] M00_AXI_BRESP
.M00_AXI_BVALID(c0_ddr4_s_axi_bvalid), // input wire M00_AXI_BVALID
.M00_AXI_BREADY(c0_ddr4_s_axi_bready), // output wire M00_AXI_BREADY
//ddr4 araddr
.M00_AXI_ARID(c0_ddr4_s_axi_arid), // output wire [7 : 0] M00_AXI_ARID
.M00_AXI_ARADDR(c0_ddr4_s_axi_araddr), // output wire [31 : 0] M00_AXI_ARADDR
.M00_AXI_ARLEN(c0_ddr4_s_axi_arlen), // output wire [7 : 0] M00_AXI_ARLEN
.M00_AXI_ARSIZE(c0_ddr4_s_axi_arsize), // output wire [2 : 0] M00_AXI_ARSIZE
.M00_AXI_ARBURST(c0_ddr4_s_axi_arburst), // output wire [1 : 0] M00_AXI_ARBURST
.M00_AXI_ARLOCK(c0_ddr4_s_axi_arlock), // output wire M00_AXI_ARLOCK
.M00_AXI_ARCACHE(c0_ddr4_s_axi_arcache), // output wire [3 : 0] M00_AXI_ARCACHE
.M00_AXI_ARPROT(c0_ddr4_s_axi_arprot), // output wire [2 : 0] M00_AXI_ARPROT
.M00_AXI_ARQOS(c0_ddr4_s_axi_arqos), // output wire [3 : 0] M00_AXI_ARQOS
.M00_AXI_ARVALID(c0_ddr4_s_axi_arvalid), // output wire M00_AXI_ARVALID
.M00_AXI_ARREADY(c0_ddr4_s_axi_arready), // input wire M00_AXI_ARREADY
//ddr4 rdata
.M00_AXI_RID(c0_ddr4_s_axi_rid), // input wire [7 : 0] M00_AXI_RID
.M00_AXI_RDATA(c0_ddr4_s_axi_rdata), // input wire [511 : 0] M00_AXI_RDATA
.M00_AXI_RRESP(c0_ddr4_s_axi_rresp), // input wire [1 : 0] M00_AXI_RRESP
.M00_AXI_RLAST(c0_ddr4_s_axi_rlast), // input wire M00_AXI_RLAST
.M00_AXI_RVALID(c0_ddr4_s_axi_rvalid), // input wire M00_AXI_RVALID
.M00_AXI_RREADY(c0_ddr4_s_axi_rready) // output wire M00_AXI_RREADY
);
可以看到interconnect的从接口配置了4组,分别对应4个通道,主接口配置了1组,连接到ddr4。
因为interconnect中4个axi4的从接口是相同功能,只需要将接口信号加上后缀,分别对应四个通道,与ddr4读写控制模块连接。ddr4读写控制模块来发起读写指令,那么4组ddr4读写模块就可以控制4组axi4的通道来发起读写请求。
四、Ddr4读写模块例化
ddr4_axi_wr_ctrl inst_ddr4_axi_wr_ctrl_0 (
.sclk (clk_75m),
.rst (~S00_AXI_ARESET_OUT_N),
//user_sport
.wr_start (wr_start_0),
.awaddr_in (awaddr_in_0),
.awlen_in (awlen_in_0),
.wdata_in (wdata_in_0),
.awaddr_cnt (awaddr_cnt_0),
.wr_busy (wr_busy_0),
//wr_address_ports
.awid (S00_AXI_AWID),
.awaddr (S00_AXI_AWADDR),
.awlen (S00_AXI_AWLEN),
.awsize (S00_AXI_AWSIZE),
.awburst (S00_AXI_AWBURST),
.S_AXI_AWLOCK (S00_AXI_AWLOCK),
.S_AXI_AWCACHE (S00_AXI_AWCACHE),
.S_AXI_AWPROT (S00_AXI_AWPROT),
.S_AXI_AWQOS (S00_AXI_AWQOS),
.awready (S00_AXI_AWREADY),
.awvalid (S00_AXI_AWVALID),
//wr_data_ports
.wready (S00_AXI_WREADY),
.wvalid (S00_AXI_WVALID),
.wdata (S00_AXI_WDATA),
.wstrb (S00_AXI_WSTRB),
.wlast (S00_AXI_WLAST),
//wr_responce_ports
.bid (S00_AXI_BID),
.bresp (S00_AXI_BRESP),
.bvalid (S00_AXI_BVALID),
.bready (S00_AXI_BREADY)
);
ddr4_axi_rd_ctrl inst_ddr4_axi_rd_ctrl_0
(
.sclk (clk_75m),
.rst (~S00_AXI_ARESET_OUT_N),
//user_sports
.rd_start (rd_start_0),
.araddr_in (araddr_in_0),
.arlen_in (arlen_in_0),
.rd_data (rd_data_0),
.rd_en (rd_en_0),
.araddr_cnt (araddr_cnt_0),
.rd_end (rd_end_0),
.rd_busy (rd_busy_0),
//rd_address_ports
.arready (S00_AXI_ARREADY),
.arvalid (S00_AXI_ARVALID),
.arid (S00_AXI_ARID),
.araddr (S00_AXI_ARADDR),
.arlen (S00_AXI_ARLEN),
.arsize (S00_AXI_ARSIZE),
.arburst (S00_AXI_ARBURST),
.S_AXI_ARLOCK (S00_AXI_ARLOCK),
.S_AXI_ARCACHE (S00_AXI_ARCACHE),
.S_AXI_ARPROT (S00_AXI_ARPROT),
.S_AXI_ARQOS (S00_AXI_ARQOS),
//rd_data_ports
.rid (S00_AXI_RID),
.rdata (S00_AXI_RDATA),
.rresp (S00_AXI_RRESP),
.rlast (S00_AXI_RLAST),
.rvalid (S00_AXI_RVALID),
.rready (S00_AXI_RREADY)
);
因为篇幅原因,这里提供通道0的读写控制模块的例化。另外3个通道的读写控制模块只需要将接口信号与interconnect和测试模块对应即可。
五、通道0测试模块例化
chnl_test_0 inst_chnl_test_0
(
.chnl_clk_0 (clk_75m),
.chnl_rst_0 (~S00_AXI_ARESET_OUT_N),
.wr_start_0 (wr_start_0),
.awaddr_in_0 (awaddr_in_0),
.awlen_in_0 (awlen_in_0),
.wdata_in_0 (wdata_in_0),
.wvalid_0 (S00_AXI_WVALID),
.wready_0 (S00_AXI_WREADY),
.awaddr_cnt_0 (awaddr_cnt_0),
.wr_busy_0 (wr_busy_0),
.rd_start_0 (rd_start_0),
.araddr_in_0 (araddr_in_0),
.arlen_in_0 (arlen_in_0),
.rd_data_0 (rd_data_0),
.rd_en_0 (rd_en_0),
.araddr_cnt_0 (araddr_cnt_0),
.rd_end_0 (rd_end_0),
.rd_busy_0 (rd_busy_0)
);
例化说明:chnl_test_0为通道0的测试模块,本模块的复位信号由interconnect提供。
六、ddr4 IP例化
ddr4_0 u_ddr4_0
(
.sys_rst (rst),
.c0_sys_clk_p (clk_300_p), // input wire c0_sys_clk_p
.c0_sys_clk_n (clk_300_n), // input wire c0_sys_clk_n
.c0_init_calib_complete (c0_init_calib_complete),
.c0_ddr4_act_n (c0_ddr4_act_n),
.c0_ddr4_adr (c0_ddr4_adr),
.c0_ddr4_ba (c0_ddr4_ba),
.c0_ddr4_bg (c0_ddr4_bg),
.c0_ddr4_cke (c0_ddr4_cke),
.c0_ddr4_odt (c0_ddr4_odt),
.c0_ddr4_cs_n (c0_ddr4_cs_n),
.c0_ddr4_ck_t (c0_ddr4_ck_t),
.c0_ddr4_ck_c (c0_ddr4_ck_c),
.c0_ddr4_reset_n (c0_ddr4_reset_n_int),
.c0_ddr4_dm_dbi_n (c0_ddr4_dm_dbi_n),
.c0_ddr4_dq (c0_ddr4_dq),
.c0_ddr4_dqs_c (c0_ddr4_dqs_c),
.c0_ddr4_dqs_t (c0_ddr4_dqs_t),
.c0_ddr4_ui_clk (c0_ddr4_clk),
.c0_ddr4_ui_clk_sync_rst (c0_ddr4_rst),
// Slave Interface Write Address Ports
.c0_ddr4_aresetn (c0_ddr4_aresetn), // input wire c0_ddr4_aresetn
.c0_ddr4_s_axi_awid (c0_ddr4_s_axi_awid), //input wire [7 : 0] c0_ddr4_s_axi_awid
.c0_ddr4_s_axi_awaddr (c0_ddr4_s_axi_awaddr),//input wire [31 : 0] c0_ddr4_s_axi_awaddr
.c0_ddr4_s_axi_awlen (c0_ddr4_s_axi_awlen), // input wire [7 : 0] c0_ddr4_s_axi_awlen
.c0_ddr4_s_axi_awsize (c0_ddr4_s_axi_awsize), // input wire [2 : 0] c0_ddr4_s_axi_awsize
.c0_ddr4_s_axi_awburst (c0_ddr4_s_axi_awburst), // input wire [1 : 0] c0_ddr4_s_axi_awburst
.c0_ddr4_s_axi_awlock (c0_ddr4_s_axi_awlock),
.c0_ddr4_s_axi_awcache (c0_ddr4_s_axi_awcache),//(c0_ddr4_s_axi_awcache),//input wire [3 : 0] c0_ddr4_s_axi_awcache
.c0_ddr4_s_axi_awprot (c0_ddr4_s_axi_awprot),//(c0_ddr4_s_axi_awprot),// input wire [2 : 0] c0_ddr4_s_axi_awprot
.c0_ddr4_s_axi_awqos (c0_ddr4_s_axi_awqos),
.c0_ddr4_s_axi_awvalid (c0_ddr4_s_axi_awvalid), // input wire c0_ddr4_s_axi_awvalid
.c0_ddr4_s_axi_awready (c0_ddr4_s_axi_awready), // output wire c0_ddr4_s_axi_awready
// Slave Interface Write Data Ports
.c0_ddr4_s_axi_wdata (c0_ddr4_s_axi_wdata), // input wire [511 : 0] c0_ddr4_s_axi_wdata
.c0_ddr4_s_axi_wstrb (c0_ddr4_s_axi_wstrb), // input wire [63 : 0] c0_ddr4_s_axi_wstrb
.c0_ddr4_s_axi_wlast (c0_ddr4_s_axi_wlast), // input wire c0_ddr4_s_axi_wlast
.c0_ddr4_s_axi_wvalid (c0_ddr4_s_axi_wvalid), // input wire c0_ddr4_s_axi_wvalid
.c0_ddr4_s_axi_wready (c0_ddr4_s_axi_wready), // output wire c0_ddr4_s_axi_wready
// Slave Interface Write Response Ports
.c0_ddr4_s_axi_bid (c0_ddr4_s_axi_bid), // output wire [7 : 0] c0_ddr4_s_axi_bid
.c0_ddr4_s_axi_bresp (c0_ddr4_s_axi_bresp), // output wire [1 : 0] c0_ddr4_s_axi_bresp
.c0_ddr4_s_axi_bvalid (c0_ddr4_s_axi_bvalid), // output wire c0_ddr4_s_axi_bvalid
.c0_ddr4_s_axi_bready (c0_ddr4_s_axi_bready), // input wire c0_ddr4_s_axi_bready
// Slave Interface Read Address Ports
.c0_ddr4_s_axi_arid (c0_ddr4_s_axi_arid), // input wire [7 : 0] c0_ddr4_s_axi_arid
.c0_ddr4_s_axi_araddr (c0_ddr4_s_axi_araddr), // input wire [31 : 0] c0_ddr4_s_axi_araddr
.c0_ddr4_s_axi_arlen (c0_ddr4_s_axi_arlen), // input wire [7 : 0] c0_ddr4_s_axi_arlen
.c0_ddr4_s_axi_arsize (c0_ddr4_s_axi_arsize), // input wire [2 : 0] c0_ddr4_s_axi_arsize
.c0_ddr4_s_axi_arburst (c0_ddr4_s_axi_arburst), // input wire [1 : 0] c0_ddr4_s_axi_arburst
.c0_ddr4_s_axi_arlock (c0_ddr4_s_axi_arlock),
.c0_ddr4_s_axi_arcache (c0_ddr4_s_axi_arcache),// input wire [3 : 0] c0_ddr4_s_axi_arcache
.c0_ddr4_s_axi_arprot (c0_ddr4_s_axi_arprot),
.c0_ddr4_s_axi_arqos (c0_ddr4_s_axi_arqos),
.c0_ddr4_s_axi_arvalid (c0_ddr4_s_axi_arvalid),// input wire c0_ddr4_s_axi_arvalid
.c0_ddr4_s_axi_arready (c0_ddr4_s_axi_arready), // output wire c0_ddr4_s_axi_arready
// Slave Interface Read Data Ports
.c0_ddr4_s_axi_rid (c0_ddr4_s_axi_rid), // output wire [7 : 0] c0_ddr4_s_axi_rid
.c0_ddr4_s_axi_rdata (c0_ddr4_s_axi_rdata), // output wire [511 : 0] c0_ddr4_s_axi_rdata
.c0_ddr4_s_axi_rresp (c0_ddr4_s_axi_rresp), // output wire [1 : 0] c0_ddr4_s_axi_rresp
.c0_ddr4_s_axi_rlast (c0_ddr4_s_axi_rlast), // output wire c0_ddr4_s_axi_rlast
.c0_ddr4_s_axi_rvalid (c0_ddr4_s_axi_rvalid), // output wire c0_ddr4_s_axi_rvalid
.c0_ddr4_s_axi_rready (c0_ddr4_s_axi_rready), // input wire c0_ddr4_s_axi_rready
// Debug Port
.dbg_clk (dbg_clk),
.dbg_bus (dbg_bus)
);
例化说明:Ddr4 IP的时钟在配置时选择的差分时钟,接口信号连接到interconnect的主接口。
七、章节总结
在本章节将之前讲过的功能模块与IP互连,从而实现使用四个测试通道来控制一个ddr4内存的读写,使用interconnect实现ddr4的多通道读写功能。
本文章由威三学社出品
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