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------------------------------------------------------------------------------*/

module axi_wrap_ram_sp #(
    parameter Init_File = "none"
)
(
  input         aclk,
  input         aresetn,
  //ar
  input  [4 :0] axi_arid   ,
  input  [31:0] axi_araddr ,
  input  [7 :0] axi_arlen  ,
  input  [2 :0] axi_arsize ,
  input  [1 :0] axi_arburst,
  input  [1 :0] axi_arlock ,
  input  [3 :0] axi_arcache,
  input  [2 :0] axi_arprot ,
  input         axi_arvalid,
  output        axi_arready,
  //r
  output [4 :0] axi_rid    ,
  output [31:0] axi_rdata  ,
  output [1 :0] axi_rresp  ,
  output        axi_rlast  ,
  output        axi_rvalid ,
  input         axi_rready ,
  //aw
  input  [4 :0] axi_awid   ,
  input  [31:0] axi_awaddr ,
  input  [7 :0] axi_awlen  ,
  input  [2 :0] axi_awsize ,
  input  [1 :0] axi_awburst,
  input  [1 :0] axi_awlock ,
  input  [3 :0] axi_awcache,
  input  [2 :0] axi_awprot ,
  input         axi_awvalid,
  output        axi_awready,
  //w
  input  [31:0] axi_wdata  ,
  input  [3 :0] axi_wstrb  ,
  input         axi_wlast  ,
  input         axi_wvalid ,
  output        axi_wready ,
  //b
  output [4 :0] axi_bid    ,
  output [1 :0] axi_bresp  ,
  output        axi_bvalid ,
  input         axi_bready 
);


//ram axi
//ar
wire [4 :0] ram_arid   ;
wire [31:0] ram_araddr ;
wire [7 :0] ram_arlen  ;
wire [2 :0] ram_arsize ;
wire [1 :0] ram_arburst;
wire [1 :0] ram_arlock ;
wire [3 :0] ram_arcache;
wire [2 :0] ram_arprot ;
wire        ram_arvalid;
wire        ram_arready;
//r
wire [4 :0] ram_rid    ;
wire [31:0] ram_rdata  ;
wire [1 :0] ram_rresp  ;
wire        ram_rlast  ;
wire        ram_rvalid ;
wire        ram_rready ;
//aw
wire [4 :0] ram_awid   ;
wire [31:0] ram_awaddr ;
wire [7 :0] ram_awlen  ;
wire [2 :0] ram_awsize ;
wire [1 :0] ram_awburst;
wire [1 :0] ram_awlock ;
wire [3 :0] ram_awcache;
wire [2 :0] ram_awprot ;
wire        ram_awvalid;
wire        ram_awready;
//w
wire [31:0] ram_wdata  ;
wire [3 :0] ram_wstrb  ;
wire        ram_wlast  ;
wire        ram_wvalid ;
wire        ram_wready ;
//b
wire [4 :0] ram_bid    ;
wire [1 :0] ram_bresp  ;
wire        ram_bvalid ;
wire        ram_bready ;

//sram signal
wire  [31:0]    fpga_sram_addr;
wire            fpga_sram_cs;
wire            fpga_sram_we;
wire  [3:0]     fpga_sram_be;
wire  [31:0]    fpga_sram_wdata;
wire  [31:0]    fpga_sram_rdata;


//ar
assign ram_arid    = axi_arid   ;
assign ram_araddr  = axi_araddr ;
assign ram_arlen   = axi_arlen  ;
assign ram_arsize  = axi_arsize ;
assign ram_arburst = axi_arburst;
assign ram_arlock  = axi_arlock ;
assign ram_arcache = axi_arcache;
assign ram_arprot  = axi_arprot ;
assign ram_arvalid = axi_arvalid;
assign axi_arready = ram_arready;
//r
assign axi_rid    = axi_rvalid ? ram_rid   :  5'd0 ;
assign axi_rdata  = axi_rvalid ? ram_rdata : 32'd0 ;
assign axi_rresp  = axi_rvalid ? ram_rresp :  2'd0 ;
assign axi_rlast  = axi_rvalid ? ram_rlast :  1'd0 ;
assign axi_rvalid = ram_rvalid;
assign ram_rready = axi_rready;
//aw
assign ram_awid    = axi_awid   ;
assign ram_awaddr  = axi_awaddr ;
assign ram_awlen   = axi_awlen  ;
assign ram_awsize  = axi_awsize ;
assign ram_awburst = axi_awburst;
assign ram_awlock  = axi_awlock ;
assign ram_awcache = axi_awcache;
assign ram_awprot  = axi_awprot ;
assign ram_awvalid = axi_awvalid;
assign axi_awready = ram_awready;
//w
assign ram_wdata  = axi_wdata  ;
assign ram_wstrb  = axi_wstrb  ;
assign ram_wlast  = axi_wlast  ;
assign ram_wvalid = axi_wvalid ;
assign axi_wready = ram_wready ;
//b
assign axi_bid    = axi_bvalid ? ram_bid   : 5'd0 ;
assign axi_bresp  = axi_bvalid ? ram_bresp : 2'd0 ;
assign axi_bvalid = ram_bvalid ;
assign ram_bready = axi_bready ;


axi2sram_sp #(
    .AXI_ID_WIDTH   ( 5  ),
    .AXI_ADDR_WIDTH ( 32 ),
    .AXI_DATA_WIDTH ( 32 ))
 u_axi_sram_sp (
    .clk                     ( aclk         ),
    .resetn                  ( aresetn      ),

    .s_araddr                ( ram_araddr    ),
    .s_arburst               ( ram_arburst   ),
    .s_arcache               ( ram_arcache   ),
    .s_arid                  ( ram_arid      ),
    .s_arlen                 ( ram_arlen     ),
    .s_arlock                ( ram_arlock    ),
    .s_arprot                ( ram_arprot    ),
    .s_arsize                ( ram_arsize    ),
    .s_arvalid               ( ram_arvalid   ),
    .s_awaddr                ( ram_awaddr    ),
    .s_awburst               ( ram_awburst   ),
    .s_awcache               ( ram_awcache   ),
    .s_awid                  ( ram_awid      ),
    .s_awlen                 ( ram_awlen     ),
    .s_awlock                ( ram_awlock    ),
    .s_awprot                ( ram_awprot    ),
    .s_awsize                ( ram_awsize    ),
    .s_awvalid               ( ram_awvalid   ),
    .s_bready                ( ram_bready    ),
    .s_rready                ( ram_rready    ),
    .s_wdata                 ( ram_wdata     ),
    .s_wlast                 ( ram_wlast     ),
    .s_wstrb                 ( ram_wstrb     ),
    .s_wvalid                ( ram_wvalid    ),
    .s_arready               ( ram_arready   ),
    .s_awready               ( ram_awready   ),
    .s_bid                   ( ram_bid       ),
    .s_bresp                 ( ram_bresp     ),
    .s_bvalid                ( ram_bvalid    ),
    .s_rdata                 ( ram_rdata     ),
    .s_rid                   ( ram_rid       ),
    .s_rlast                 ( ram_rlast     ),
    .s_rresp                 ( ram_rresp     ),
    .s_rvalid                ( ram_rvalid    ),
    .s_wready                ( ram_wready    ),

    .req_o                   ( fpga_sram_cs       ),
    .we_o                    ( fpga_sram_we       ),
    .addr_o                  ( fpga_sram_addr     ),
    .be_o                    ( fpga_sram_be       ),
    .data_o                  ( fpga_sram_wdata    ),
    .data_i                  ( fpga_sram_rdata    )
);

wire [3:0] fpga_sram_wren = {4{fpga_sram_we}} & fpga_sram_be;

//1MByte SRAM
fpga_sram_sp #(
.AW ( 18 ),
.Init_File (Init_File)
)u_fpga_sram (    
    .CLK                     ( aclk     ),
    .ADDR                    ( fpga_sram_addr[19:2]    ),
    .WDATA                   ( fpga_sram_wdata   ),
    .WREN                    ( fpga_sram_wren    ),
    .CS                      ( fpga_sram_cs      ),
    .RDATA                   ( fpga_sram_rdata   )
);


endmodule