// ------------------ multiByteReadWrite.v ----------------------
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// ------------------ multiByteReadWrite.v ----------------------
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`include "timescale.v"
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`include "timescale.v"
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`include "i2cSlaveTB_defines.v"
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`include "i2cSlaveTB_defines.v"
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module multiByteReadWrite();
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module multiByteReadWrite();
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reg ack;
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reg ack;
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reg [31:0] readData;
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reg [31:0] readData;
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reg [7:0] dataByteRead;
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reg [7:0] dataByteRead;
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//reg [7:0] dataMSB;
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//reg [7:0] dataMSB;
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// ------------------ write ----------------------
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// ------------------ write ----------------------
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task write;
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task write;
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input [7:0] i2cAddr;
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input [7:0] i2cAddr;
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input [7:0] regAddr;
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input [7:0] regAddr;
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input [31:0] data;
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input [31:0] data;
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input stop;
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input stop;
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begin
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begin
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$write("I2C Write: At [0x%0x] = 0x%0x\n", regAddr, data);
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$write("I2C Write: At [0x%0x] = 0x%0x\n", regAddr, data);
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//i2c address
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//i2c address
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, i2cAddr);
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, i2cAddr);
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h90); //STA, WR
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h90); //STA, WR
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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while (dataByteRead[1] == 1'b1) //while trans in progress
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while (dataByteRead[1] == 1'b1) //while trans in progress
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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//$write("I2C device address sent, SR = 0x%x\n", dataByteRead );
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//$write("I2C device address sent, SR = 0x%x\n", dataByteRead );
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//slave reg address
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//slave reg address
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, regAddr);
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, regAddr);
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h10); //WR
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h10); //WR
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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while (dataByteRead[1] == 1'b1) //while trans in progress
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while (dataByteRead[1] == 1'b1) //while trans in progress
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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//$write("Slave reg address sent, SR = 0x%x\n", dataByteRead );
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//$write("Slave reg address sent, SR = 0x%x\n", dataByteRead );
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//data[31:24]
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//data[31:24]
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, data[31:24]);
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, data[31:24]);
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h10); //WR
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h10); //WR
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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while (dataByteRead[1] == 1'b1) //while trans in progress
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while (dataByteRead[1] == 1'b1) //while trans in progress
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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//$write("Data[31:24] sent, SR = 0x%x\n", dataByteRead );
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//$write("Data[31:24] sent, SR = 0x%x\n", dataByteRead );
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//data[23:16]
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//data[23:16]
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, data[23:16]);
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, data[23:16]);
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h10); //WR
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h10); //WR
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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while (dataByteRead[1] == 1'b1) //while trans in progress
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while (dataByteRead[1] == 1'b1) //while trans in progress
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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//$write("Data[23:16] sent, SR = 0x%x\n", dataByteRead );
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//$write("Data[23:16] sent, SR = 0x%x\n", dataByteRead );
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//data[15:8]
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//data[15:8]
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, data[15:8]);
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, data[15:8]);
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h10); //WR
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h10); //WR
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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while (dataByteRead[1] == 1'b1) //while trans in progress
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while (dataByteRead[1] == 1'b1) //while trans in progress
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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//$write("Data[15:8] sent, SR = 0x%x\n", dataByteRead );
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//$write("Data[15:8] sent, SR = 0x%x\n", dataByteRead );
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//data[7:0]
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//data[7:0]
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, data[7:0]);
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, data[7:0]);
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , {1'b0, stop, 6'b010000}); //STO?, WR
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , {1'b0, stop, 6'b010000}); //STO?, WR
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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while (dataByteRead[1] == 1'b1) //while trans in progress
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while (dataByteRead[1] == 1'b1) //while trans in progress
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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//$write("Data[7:0] sent, SR = 0x%x\n", dataByteRead );
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//$write("Data[7:0] sent, SR = 0x%x\n", dataByteRead );
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end
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end
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endtask
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endtask
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// ------------------ read ----------------------
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// ------------------ read ----------------------
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task read;
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task read;
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input [7:0] i2cAddr;
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input [7:0] i2cAddr;
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input [7:0] regAddr;
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input [7:0] regAddr;
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input [31:0] expectedData;
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input [31:0] expectedData;
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output [31:0] data;
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output [31:0] data;
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input stop;
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input stop;
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begin
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begin
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//i2c address
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//i2c address
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, i2cAddr); //write
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, i2cAddr); //write
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h90); //STA, WR
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h90); //STA, WR
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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while (dataByteRead[1] == 1'b1) //while trans in progress
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while (dataByteRead[1] == 1'b1) //while trans in progress
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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//$write("I2C device address sent, SR = 0x%x\n", dataByteRead );
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//$write("I2C device address sent, SR = 0x%x\n", dataByteRead );
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#5000;
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#5000;
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//slave reg address
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//slave reg address
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, regAddr);
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, regAddr);
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , {1'b0, stop, 6'b010000}); //STO?, WR
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , {1'b0, stop, 6'b010000}); //STO?, WR
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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while (dataByteRead[1] == 1'b1) //while trans in progress
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while (dataByteRead[1] == 1'b1) //while trans in progress
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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//$write("Slave reg address sent, SR = 0x%x\n", dataByteRead );
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//$write("Slave reg address sent, SR = 0x%x\n", dataByteRead );
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#5000;
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#5000;
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//i2c address
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//i2c address
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, {i2cAddr[7:1], 1'b1}); //read
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testHarness.u_wb_master_model.wb_write(1, `TXR_REG, {i2cAddr[7:1], 1'b1}); //read
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h90); //STA, WR
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h90); //STA, WR
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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while (dataByteRead[1] == 1'b1) //while trans in progress
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while (dataByteRead[1] == 1'b1) //while trans in progress
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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//$write("I2C device address sent, SR = 0x%x\n", dataByteRead );
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//$write("I2C device address sent, SR = 0x%x\n", dataByteRead );
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//data[31:24]
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//data[31:24]
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h20); //RD, ACK
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h20); //RD, ACK
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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while (dataByteRead[1] == 1'b1) //while trans in progress
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while (dataByteRead[1] == 1'b1) //while trans in progress
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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//$write("Data[31:24] rxed, SR = 0x%x\n", dataByteRead );
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//$write("Data[31:24] rxed, SR = 0x%x\n", dataByteRead );
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testHarness.u_wb_master_model.wb_read(1, `RXR_REG, readData[31:24]);
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testHarness.u_wb_master_model.wb_read(1, `RXR_REG, readData[31:24]);
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//data[23:16]
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//data[23:16]
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h20); //RD, ACK
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h20); //RD, ACK
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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while (dataByteRead[1] == 1'b1) //while trans in progress
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while (dataByteRead[1] == 1'b1) //while trans in progress
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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//$write("Data[23:16] rxed, SR = 0x%x\n", dataByteRead );
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//$write("Data[23:16] rxed, SR = 0x%x\n", dataByteRead );
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testHarness.u_wb_master_model.wb_read(1, `RXR_REG, readData[23:16]);
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testHarness.u_wb_master_model.wb_read(1, `RXR_REG, readData[23:16]);
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//data[15:8]
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//data[15:8]
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h20); //RD, ACK
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , 8'h20); //RD, ACK
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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while (dataByteRead[1] == 1'b1) //while trans in progress
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while (dataByteRead[1] == 1'b1) //while trans in progress
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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//$write("Data[15:8] rxed, SR = 0x%x\n", dataByteRead );
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//$write("Data[15:8] rxed, SR = 0x%x\n", dataByteRead );
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testHarness.u_wb_master_model.wb_read(1, `RXR_REG, readData[15:8]);
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testHarness.u_wb_master_model.wb_read(1, `RXR_REG, readData[15:8]);
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//data[7:0]
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//data[7:0]
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , {1'b0, 1'b0, 6'b101000}); //STO, RD, NAK
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testHarness.u_wb_master_model.wb_write(1, `CR_REG , {1'b0, 1'b0, 6'b101000}); //STO, RD, NAK
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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while (dataByteRead[1] == 1'b1) //while trans in progress
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while (dataByteRead[1] == 1'b1) //while trans in progress
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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testHarness.u_wb_master_model.wb_read(1, `SR_REG , dataByteRead);
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//$write("Data[7:0] rxed, SR = 0x%x\n", dataByteRead );
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//$write("Data[7:0] rxed, SR = 0x%x\n", dataByteRead );
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testHarness.u_wb_master_model.wb_read(1, `RXR_REG, readData[7:0]);
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testHarness.u_wb_master_model.wb_read(1, `RXR_REG, readData[7:0]);
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data = readData;
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data = readData;
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if (data != expectedData) begin
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if (data != expectedData) begin
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$write("***** I2C Read ERROR: At 0x%0x. Expected 0x%0x, got 0x%0x\n", regAddr, expectedData, data);
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$write("***** I2C Read ERROR: At 0x%0x. Expected 0x%0x, got 0x%0x\n", regAddr, expectedData, data);
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$stop;
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$stop;
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end
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end
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else
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else
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$write("I2C Read: At [0x%0x] = 0x%0x\n", regAddr, data);
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$write("I2C Read: At [0x%0x] = 0x%0x\n", regAddr, data);
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end
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end
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endtask
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endtask
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endmodule
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endmodule
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