Register
description
Transcript of Register
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Register
module Reg(Q, D, Clk);//parameter N = 16;input Clk;input [N-1:0] D;output [N-1:0] Q;reg [N-1:0] Q;// always @(posedge Clk) Q <= #`dh D;//endmodule
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Register Reset_module RegRst(Q, D, Reset_, Clk);//parameter N = 16;//input Reset_, Clk;input [N-1:0] D;output [N-1:0] Q;reg [N-1:0] Q;// always @(posedge Clk or negedge Reset_) begin if (!Reset_) Q <= 0; else Q <= #`dh D; endendmodule
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Register Ld
module RegLd(Q, D, Ld, Clk);//parameter N = 16;input Ld, Clk;input [N-1:0] D;output [N-1:0] Q;reg [N-1:0] Q;// always @(posedge Clk) if (Ld) Q <= #`dh D;//endmodule
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Set Clear flip-flop Strong Clear
module sCff(Out, Set, Clear, Clk);//output Out;input Set, Clear, Clk;//reg Out; always @(posedge Clk) Out <= #`dh (Out | Set) & ~Clear;//endmodule
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Set Clear flip-flop Strong Set
module Scff(Out, Set, Clear, Clk);//output Out;input Set, Clear, Clk;//reg Out; always @(posedge Clk) Out <= #`dh Set | (Out & ~Clear);//endmodule
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T Flip Flop
module Tff(Out, Toggle, Clk);//output Out;input Toggle, Clk;//reg Out; always @(posedge Clk) if(Toggle) Out <= #`dh ~Out;//endmodule
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Positive Edge Detector
module PosEdgDet(Out, In, Clk);//input In, Clk;output Out;// reg Tmp; always @(posedge Clk) Tmp <= #`dh In; wire Out = ~Tmp & In;//endmodule
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Mux2
module mux2(Out, In1, In0, Sel);//parameter N = 16;output [N-1:0] Out;input [N-1:0] In1, In0;input Sel;// wire [N-1:0] Out = Sel ? In1 : In0;//endmodule
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Mux4 module mux4(Out, In3, In2, In1, In0, Sel);//parameter N = 32;input [ 1:0] Sel;input [N-1:0] In3, In2, In1, In0;output [N-1:0] Out;reg [N-1:0] Out;// always @(In0 or In1 or In2 or In3 or Sel) begin case ( Sel ) // synopsys infer_mux 2'b00 : Out = In0; 2'b01 : Out = In1; 2'b10 : Out = In2; 2'b11 : Out = In3; endcase endendmodule
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Tris
module Tris(TrisOut, TrisIn, TrisOen_);//parameter N = 32;input [N-1:0] TrisIn;input TrisOen_;output [N-1:0] TrisOut;// wire [N-1:0] TrisOut = ~TrisOen ? TrisIn : ‘bz;//endmodule
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Mux4t1 RegLd Trismodule MuxRegTris(Out, In0, In1, In2, In3, Select, Ld, TrisEn, Clk);//parameter N = 32;input Ld, TrisEn, Clk;input [ 1:0] Select;input [N-1:0] In0, In1, In2, In3;output [N-1:0] Out;reg [N-1:0] MuxReg; always @(posedge Clk) begin if(Ld) begin case(Select) 0 : MuxReg = In0; 1 : MuxReg = In1; 2 : MuxReg = In2; 3 : MuxReg = In3; endcase end end wire [N-1:0] Out = TrisEn ? MuxReg : 'bz;//endmodule
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Up Counter Dividermodule Cnt(Out, Zero, En, Clear, Clk);parameter N = 32;parameter MaxCnt = 9;input En, Clear, Clk;output Zero;output [N-1:0] Out;reg [N-1:0] Out;reg Zero; always @(posedge Clk) begin if(Clear) Out <= #`dh 0; else if(En) begin if(Out==MaxCnt) begin Out <= #`dh 0; Zero <= #`dh 1; end else begin Out <= #`dh Out + 1; Zero <= #`dh 0; end end endendmodule
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Parallel to Serial Shift Register
module P2Sreg(Out, In, Ld, Shift, Clk, Reset_);parameter N = 32;input Ld, Shift, Clk, Reset_;input [N-1:0] In;output Out;reg [N-1:0] TmpVal;// always @(posedge Clk or negedge Reset_) begin if (~Reset_) TmpVal = #`dh 0; else begin if (Ld) TmpVal = #`dh In; else if(Shift) TmpVal = #`dh TmpVal>>1; end end wire Out = TmpVal[0];endmodule
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Serial to Parallel Nbit Shift Register
module S2Preg(Out, In, Shift, Clear, Clk);parameter N = 32;input In, Shift, Clear, Clk;output [N-1:0] Out;reg [N-1:0] Out;// wire [N-1:0] Tmp = {Out[N-2:0],In}; always @(posedge Clk) begin if(Clear) Out = #`dh 0; else if(Shift) Out = #`dh Tmp; end//endmodule
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Priority Enforcer and Encoder ModulePriority is left <- right (MS)
module PriorEnf(In, Out, OneDetected);parameter N = 8;input [N-1:0] In;output [N-1:0] Out;output OneDetected;reg [N-1:0] Out;reg OneDetected;integer i; // Temporary registersreg DetectNot; // Temporary registers always @(In) begin DetectNot=1; for (i=0; i<N; i=i+1) if (In[i] & DetectNot) begin Out[i]=1; DetectNot=0; end else Out[i]=0; OneDetected= !DetectNot; endendmodule
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3 to 8 Decoder Modulemodule Dec(In, Out);input [2:0] In;output [7:0] Out;reg [7:0] Out;integer i;reg [7:0] tmp;// always @(In) begin tmp = 0; for (i=0; i<8; i=i+1) if (In==i) tmp[i]=1; Out = tmp; end//endmodule
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Latch
module Latch(In, Out, Ld);//parameter N = 16;//input [N-1:0] In;input Ld;output [N-1:0] Out;//reg [N-1:0] Out;// always @(In or Ld) if(Ld) Out = #`dh In; //endmodule
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FSM
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FSM (1/5)module fsmJ(ReceiveSt, ErrorSt, Start, Stop, Error, Clk, Reset_);//input Start, Stop, Error, Clk, Reset_;output ReceiveSt, ErrorSt;//parameter [1:0] IdleState = 0, ReceiveState = 1, ErrorState = 2;//reg [1:0] FSMstate, nxtFSMstate;reg ReceiveSt, ErrorSt, nxtReceiveSt, nxtErrorSt;//always @(FSMstate or Start or Stop or Error) begin// case(FSMstate)
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FSM (2/5) IdleState: begin if(Error) begin nxtFSMstate <= ErrorState; nxtReceiveSt <= 0; nxtErrorSt <= 1; end else begin if(Start) begin nxtFSMstate <= ReceiveState; nxtReceiveSt <= 1; nxtErrorSt <= 0; end else begin nxtFSMstate <= IdleState; nxtReceiveSt <= 0; nxtErrorSt <= 0; end end end
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FSM (3/5) ReceiveState: begin if(Error) begin nxtFSMstate <= ErrorState; nxtReceiveSt <= 0; nxtErrorSt <= 1; end else begin if(Stop) begin nxtFSMstate <= IdleState; nxtReceiveSt <= 0; nxtErrorSt <= 0; end else begin nxtFSMstate <= ReceiveState; nxtReceiveSt <= 1; nxtErrorSt <= 0; end end end
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FSM (4/5) ErrorState : begin nxtFSMstate <= IdleState; nxtReceiveSt <= 0; nxtErrorSt <= 0; end// default : begin nxtFSMstate <= IdleState; nxtReceiveSt <= 0; nxtErrorSt <= 0; end
// endcaseend
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FSM (5/5)always @(posedge Clk) begin if (~Reset_) begin FSMstate <= #`dh IdleState; ReceiveSt <= #`dh 0; ErrorSt <= #`dh 0; end else begin FSMstate <= #`dh nxtFSMstate; ReceiveSt <= #`dh nxtReceiveSt; ErrorSt <= #`dh nxtErrorSt; endend//endmodule
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FSM (1/3)module fsmS(ReceiveSt, ErrorSt, Start, Stop, Error, Clk, Reset_);//input Start, Stop, Error, Clk, Reset_;output ReceiveSt, ErrorSt;//parameter [1:0] IdleState = 0, ReceiveState = 1, ErrorState = 2;//reg [1:0] FSMstate, nxtFSMstate;//always @(FSMstate or Start or Stop or Error) begin// case(FSMstate)
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FSM (2/3) IdleState: begin if(Error) nxtFSMstate <= ErrorState; else begin if(Start) nxtFSMstate <= ReceiveState; else nxtFSMstate <= IdleState; end end// ReceiveState: begin if(Error) nxtFSMstate <= ErrorState; else begin if(Stop) nxtFSMstate <= IdleState; else nxtFSMstate <= ReceiveState; end end
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FSM (3/3)// ErrorState : nxtFSMstate <= IdleState;// default : nxtFSMstate <= IdleState;// endcaseend//always @(posedge Clk) begin if (~Reset_) FSMstate <= #`dh IdleState; else FSMstate <= #`dh nxtFSMstate;end//wire ReceiveSt = FSMstate[0];wire ErrorSt = FSMstate[1];//endmodule
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FSM 1/4module fsmM(ReceiveSt, ErrorSt, Start, Stop, Error, Clk, Reset_);//input Start, Stop, Error, Clk, Reset_;output ReceiveSt, ErrorSt;//parameter [1:0] IdleState = 0, ReceiveState = 1, ErrorState = 3;//reg [1:0] FSMstate, nxtFSMstate;//always @(FSMstate or Start or Stop or Error) begin// case(FSMstate)
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FSM 2/4 IdleState: begin if(Error) nxtFSMstate <= ErrorState; else begin if(Start) nxtFSMstate <= ReceiveState; else nxtFSMstate <= IdleState; end end// ReceiveState: begin if(Error) nxtFSMstate <= ErrorState; else begin if(Stop) nxtFSMstate <= IdleState; else nxtFSMstate <= ReceiveState; end end
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FSM 3/4
// ErrorState : nxtFSMstate <= IdleState;// default : nxtFSMstate <= IdleState;// endcaseend//always @(posedge Clk) begin if (~Reset_) FSMstate <= #`dh IdleState; else FSMstate <= #`dh nxtFSMstate;end//
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FSM 4/4
reg ReceiveSt;wire SetRcvSt = (FSMstate==IdleState)&Start;wire ClrRcvSt = (FSMstate==ReceiveState)&(Error|Stop);//always @(posedge Clk) begin if (~Reset_) ReceiveSt <= 0; else ReceiveSt <= (ReceiveSt | SetRcvSt)&~ClrRcvSt;end//wire ErrorSt = FSMstate[1];//endmodule
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Single Port SRAMmodule SPRAM(Addr, Data, Write_, Oen_, Cs_);//parameter ADDR_WIDTH = 8, DATA_WIDTH = 8;//input Write_, Oen_, Cs_;input [ADDR_WIDTH-1:0] Addr;inout [DATA_WIDTH-1:0] Data;//reg [DATA_WIDTH-1:0] mem[(1 << ADDR_WIDTH)-1:0];reg [DATA_WIDTH-1:0] DataTmp;// always @(Write_ or Oen_ or Addr or Cs_ or Data) begin DataTmp = ((!Oen_ & Write_ & !Cs_) ? mem[Addr] : 'bz); if (!Write_& !Cs_) mem[Addr] = Data; end wire [DATA_WIDTH-1:0] Data = DataTmp;//endmodule
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Dual Port SRAM
module DPSRAM(WAddr, RAddr, DataIn, DataOut, Write_, Read_);//parameter ADDR_WIDTH = 8, DATA_WIDTH = 8;input Write_, Read_;input [ADDR_WIDTH-1:0] WAddr, RAddr;input [DATA_WIDTH-1:0] DataIn;output [DATA_WIDTH-1:0] DataOut;reg [DATA_WIDTH-1:0] mem[(1 << ADDR_WIDTH)-1:0];// always @(Write_ or DataIn or WAddr) if (!Write_) mem[WAddr] = DataIn; wire [DATA_WIDTH-1:0] DataOut = !Read_ ? mem[RAddr] : 'bz;//endmodule
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Single Port SSRAM 1/2module SPRAM(Clk, Addr, CS_, WE_, OE_, DataIn, DataOut);//parameter DATA_WIDTH = 16, ADDR_WIDTH = 16;//input [DATA_WIDTH-1:0] DataIn;input [ADDR_WIDTH-1:0] Addr;input Clk, CS_, WE_, OE_;//output [DATA_WIDTH-1:0] DataOut;//reg [DATA_WIDTH-1:0] DataInint, DataOut;reg [ADDR_WIDTH-1:0] AddrInt;reg [DATA_WIDTH-1:0] Mem[(1 << ADDR_WIDTH)-1:0];reg CSint_, WEint_, OEint_;//
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Single Port SSRAM 2/2
// always @(posedge Clk) begin AddrInt <= Addr; CSint_ <= CS_; WEint_ <= WE_; OEint_ <= OE_; DataInint <= DataIn; end always @(posedge Clk) if(~CSint_ & ~WEint_) Mem[AddrInt] = DataInint;// always @(OEint_ or CSint_ or AddrInt) DataOut = #`dh (~OEint_&~CSint_) ? Mem[AddrInt] : 'bz;//endmodule
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Dual Port SSRAM 1/3
module DPRAM(Clk1, Addr1, CS1_, WE1_, OE1_, DataIn1, DataOut1, Clk2, Addr2, CS2_, WE2_, OE2_, DataIn2, DataOut2); //parameter DATA_WIDTH = 16, ADDR_WIDTH = 16;input [DATA_WIDTH-1:0] DataIn1, DataIn2;input [ADDR_WIDTH-1:0] Addr1, Addr2;input Clk1, Clk2, CS1_, CS2_, WE1_, WE2_, OE1_, OE2_;output [DATA_WIDTH-1:0] DataOut1, DataOut2;//reg [DATA_WIDTH-1:0] DataIn1int, DataOut1, DataIn2int, DataOut2;reg [ADDR_WIDTH-1:0] Addr1int, Addr2int;reg [DATA_WIDTH-1:0] Mem[(1 << ADDR_WIDTH)-1:0];reg CS1int_, WE1int_, OE1int_, CS2int_, WE2int_, OE2int_;//
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Dual Port SSRAM 2/3
// always @(posedge Clk1) begin Addr1int <= Addr1; CS1int_ <= CS1_; WE1int_ <= WE1_; OE1int_ <= OE1_; DataIn1int <= DataIn1; end always @(posedge Clk1) if(~CS1int_&~WE1int_) Mem[Addr1int] = DataIn1int;// always @(OE1int_ or CS1int_ or Addr1int or Clk1) DataOut1 = #1 (~OE1int_&~CS1int_) ? Mem[Addr1int] : 'bz;//
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Dual Port SSRAM 3/3
// always @(posedge Clk2) begin Addr2int <= Addr2; CS2int_ <= CS2_; WE2int_ <= WE2_; OE2int_ <= OE2_; DataIn2int <= DataIn2; end always @(posedge Clk2) if(~CS2int_&~WE2int_) Mem[Addr2int] = DataIn2;// always @(OE2int_ or CS2int_ or Addr2int or Clk2) DataOut2 = #1 (~OE2int_&~CS2int_) ? Mem[Addr2int] : bz;//endmodule