RAM UsageΒΆ

The RAM macros (RAM_8K_BLK.v & RAM_16K_BLK.v) are part of pp3_cells_sim.v at:
<Install_Path>/conda/share/yosys/quicklogic

The examples of RAMs are present at:
<Install_Path>/quicklogic-arch-defs/tests/RAM_Examples

The Design example using S3 SRAM block are present at:
<Install_Path>/quicklogic-arch-defs/tests/ram_test

  1. RAM_8K_BLK RAM macro is 8K bits block which can be configured as:
  • 1 independent 8Kbits RAM block
  • RAM can be initialized through INIT or INIT_FILE
  1. RAM_16K_BLK RAM macro is a 16K bits block which can be configured as:
  • A horizontal concatenated block (16Kbits)
  • A vertical concatenated block (16Kbits)
  • RAM can be initialized through INIT or INIT_FILE

Example 1: 1 8Kbits RAM

module r512x16_512x16 (WA,RA,WD,WClk,RClk,WClk_En,RClk_En,WEN,RD);
    input [8:0] WA;
    input [8:0] RA;
    input WClk,RClk;
    input WClk_En,RClk_En;
    input [1:0] WEN;
    input [15:0] WD;
    output [15:0] RD;

    parameter [16383:0] INIT = 16384'b0;
    parameter INIT_FILE="init_512x16.hex";

    parameter addr_int = 9 ;
    parameter data_depth_int = 512;
    parameter data_width_int = 16;
    parameter wr_enable_int = 2;
    parameter reg_rd_int = 0;

    RAM_8K_BLK #(.addr_int(addr_int),.data_depth_int(data_depth_int),.data_width_int(data_width_int),.wr_enable_int(wr_enable_int),.reg_rd_int(reg_rd_int),
                              .INIT(INIT),.INIT_FILE(INIT_FILE)
                              )
    RAM_INST (      .WA(WA), .RA(RA), .WD(WD), .WClk(WClk), .RClk(RClk), .WClk_En(WClk_En), .RClk_En(RClk_En), .WEN(WEN), .RD(RD));
endmodule

Example 2: Horizontal Concatenation

  • 512x32 RAM (16 Kbits)
  • RAM can be initialized through INIT or INIT_FILE
module r512x32_512x32 (WA,RA,WD,WClk,RClk,WClk_En,RClk_En,WEN,RD);
    input [8:0] WA;
    input [8:0] RA;
    input WClk,RClk;
    input WClk_En,RClk_En;
    input [3:0] WEN;
    input [31:0] WD;
    output [31:0] RD;

    parameter [16383:0] INIT = 16384'b0;
    parameter INIT_FILE="init_512x32.hex";

    parameter addr_int = 9 ;
    parameter data_depth_int = 512;
    parameter data_width_int = 32;
    parameter wr_enable_int = 4;
    parameter reg_rd_int = 0;

    RAM_16K_BLK #(.addr_int(addr_int),.data_depth_int(data_depth_int),.data_width_int(data_width_int),.wr_enable_int(wr_enable_int),.reg_rd_int(reg_rd_int),
                              .INIT(INIT),.INIT_FILE(INIT_FILE)
                              )
    RAM_INST (      .WA(WA), .RA(RA), .WD(WD), .WClk(WClk), .RClk(RClk), .WClk_En(WClk_En), .RClk_En(RClk_En), .WEN(WEN), .RD(RD));
endmodule

Example 3: Vertical Concatenation

  • 2048 x 8 RAM (16 Kbits)
  • RAM can be initialized through INIT or INIT_FILE
module r2048x8_2048x8 (WA,RA,WD,WClk,RClk,WClk_En,RClk_En,WEN,RD);
    input [10:0] WA;
    input [10:0] RA;
    input WClk,RClk;
    input WClk_En,RClk_En;
    input WEN;
    input [7:0] WD;
    output [7:0] RD;

    parameter [16383:0] INIT = 16384'b0;
    parameter INIT_FILE="init_2048x8.hex";

    parameter addr_int = 11 ;
    parameter data_depth_int = 2048;
    parameter data_width_int = 8;
    parameter wr_enable_int = 1;
    parameter reg_rd_int = 0;


    RAM_16K_BLK #(.addr_int(addr_int),.data_depth_int(data_depth_int),.data_width_int(data_width_int),.wr_enable_int(wr_enable_int),.reg_rd_int(reg_rd_int),
                        .INIT(INIT),.INIT_FILE(INIT_FILE)
                              )
    RAM_INST (      .WA(WA), .RA(RA), .WD(WD), .WClk(WClk), .RClk(RClk), .WClk_En(WClk_En), .RClk_En(RClk_En), .WEN(WEN), .RD(RD));
endmodule