/// <summary> /// Constructs a new testbechn. /// </summary> /// <param name="userLogic">component under test</param> public AXILiteSlaveUserLogicTestbench(AXILiteSlaveUserLogic userLogic) { user_logic = userLogic; _sig_Bus2IP_Clk = new SLSignal(); _sig_Bus2IP_Resetn = new SLSignal() { InitialValue = '0' }; _sig_Bus2IP_Data = new SLVSignal(userLogic.SLVDWidth) { InitialValue = StdLogicVector.Xs(userLogic.SLVDWidth) }; _sig_Bus2IP_BE = new SLVSignal(userLogic.SLVDWidth / 8) { InitialValue = StdLogicVector._0s(userLogic.SLVDWidth / 8) }; _sig_Bus2IP_RdCE = new SLVSignal(userLogic.NumRegs) { InitialValue = StdLogicVector._0s(userLogic.NumRegs) }; _sig_Bus2IP_WrCE = new SLVSignal(userLogic.NumRegs) { InitialValue = StdLogicVector._0s(userLogic.NumRegs) }; _sig_IP2Bus_Data = new SLVSignal(userLogic.SLVDWidth) { InitialValue = StdLogicVector._0s(userLogic.SLVDWidth) }; _sig_IP2Bus_RdAck = new SLSignal() { InitialValue = '0' }; _sig_IP2Bus_WrAck = new SLSignal() { InitialValue = '0' }; _sig_IP2Bus_Error = new SLSignal() { InitialValue = '0' }; userLogic.Bus2IP_Clk = _sig_Bus2IP_Clk; userLogic.Bus2IP_BE = _sig_Bus2IP_BE; userLogic.Bus2IP_Clk = _sig_Bus2IP_Clk; userLogic.Bus2IP_Data = _sig_Bus2IP_Data; userLogic.Bus2IP_RdCE = _sig_Bus2IP_RdCE; userLogic.Bus2IP_Resetn = _sig_Bus2IP_Resetn; userLogic.Bus2IP_WrCE = _sig_Bus2IP_WrCE; userLogic.IP2Bus_Data = _sig_IP2Bus_Data; userLogic.IP2Bus_Error = _sig_IP2Bus_Error; userLogic.IP2Bus_RdAck = _sig_IP2Bus_RdAck; userLogic.IP2Bus_WrAck = _sig_IP2Bus_WrAck; _clockGen = new Clock(new Time(10.0, ETimeUnit.ns)) { Clk = _sig_Bus2IP_Clk }; }
/// <summary> /// Constructs a new testbechn. /// </summary> /// <param name="userLogic">component under test</param> public AXILiteSlaveUserLogicTestbench(AXILiteSlaveUserLogic userLogic) { user_logic = userLogic; _sig_Bus2IP_Clk = new SLSignal(); _sig_Bus2IP_Resetn = new SLSignal() { InitialValue = '0' }; _sig_Bus2IP_Data = new SLVSignal(userLogic.SLVDWidth) { InitialValue = StdLogicVector.Xs(userLogic.SLVDWidth) }; _sig_Bus2IP_BE = new SLVSignal(userLogic.SLVDWidth / 8) { InitialValue = StdLogicVector._0s(userLogic.SLVDWidth / 8) }; _sig_Bus2IP_RdCE = new SLVSignal(userLogic.NumRegs) { InitialValue = StdLogicVector._0s(userLogic.NumRegs) }; _sig_Bus2IP_WrCE = new SLVSignal(userLogic.NumRegs) { InitialValue = StdLogicVector._0s(userLogic.NumRegs) }; _sig_IP2Bus_Data = new SLVSignal(userLogic.SLVDWidth) { InitialValue = StdLogicVector._0s(userLogic.SLVDWidth) }; _sig_IP2Bus_RdAck = new SLSignal() { InitialValue = '0' }; _sig_IP2Bus_WrAck = new SLSignal() { InitialValue = '0' }; _sig_IP2Bus_Error = new SLSignal() { InitialValue = '0' }; userLogic.Bus2IP_Clk = _sig_Bus2IP_Clk; userLogic.Bus2IP_BE = _sig_Bus2IP_BE; userLogic.Bus2IP_Clk = _sig_Bus2IP_Clk; userLogic.Bus2IP_Data = _sig_Bus2IP_Data; userLogic.Bus2IP_RdCE = _sig_Bus2IP_RdCE; userLogic.Bus2IP_Resetn = _sig_Bus2IP_Resetn; userLogic.Bus2IP_WrCE = _sig_Bus2IP_WrCE; userLogic.IP2Bus_Data = _sig_IP2Bus_Data; userLogic.IP2Bus_Error = _sig_IP2Bus_Error; userLogic.IP2Bus_RdAck = _sig_IP2Bus_RdAck; userLogic.IP2Bus_WrAck = _sig_IP2Bus_WrAck; _clockGen = new Clock(new Time(10.0, ETimeUnit.ns)) { Clk = _sig_Bus2IP_Clk }; }