OpenFPGA/openfpga_flow/openfpga_cell_library/verilog/dff.v

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//-----------------------------------------------------
// Design Name : D-type Flip-flops
// File Name : ff.v
// Coder : Xifan TANG
//-----------------------------------------------------
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//-----------------------------------------------------
// Function : A native D-type flip-flop with single output
//-----------------------------------------------------
module DFFQ (
input CK, // Clock Input
input D, // Data Input
output Q // Q output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ (posedge CK) begin
q_reg <= D;
end
assign Q = q_reg;
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endmodule //End Of Module
//-----------------------------------------------------
// Function : A native D-type flip-flop
//-----------------------------------------------------
module DFF (
input CK, // Clock Input
input D, // Data Input
output Q, // Q output
output QN // QB output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ (posedge CK) begin
q_reg <= D;
end
assign Q = q_reg;
assign QN = ~q_reg;
endmodule //End Of Module
//-----------------------------------------------------
// Function : D-type flip-flop with
// - single output
// - asynchronous active high reset
//-----------------------------------------------------
module DFFRQ (
input RST, // Reset input
input CK, // Clock Input
input D, // Data Input
output Q // Q output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ ( posedge CK or posedge RST)
if (RST) begin
q_reg <= 1'b0;
end else begin
q_reg <= D;
end
assign Q = q_reg;
endmodule //End Of Module
//-----------------------------------------------------
// Function : D-type flip-flop with
// - asynchronous active high reset
//-----------------------------------------------------
module DFFR (
input RST, // Reset input
input CK, // Clock Input
input D, // Data Input
output Q, // Q output
output QN // QB output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ ( posedge CK or posedge RST)
if (RST) begin
q_reg <= 1'b0;
end else begin
q_reg <= D;
end
assign Q = q_reg;
assign QN = ~q_reg;
endmodule //End Of Module
//-----------------------------------------------------
// Function : D-type flip-flop with
// - asynchronous active low reset
//-----------------------------------------------------
module DFFRN (
input RSTN, // Reset input
input CK, // Clock Input
input D, // Data Input
output Q, // Q output
output QN // QB output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ ( posedge CK or negedge RSTN)
if (~RSTN) begin
q_reg <= 1'b0;
end else begin
q_reg <= D;
end
assign Q = q_reg;
assign QN = ~q_reg;
endmodule //End Of Module
//-----------------------------------------------------
// Function : D-type flip-flop with
// - asynchronous active high set
//-----------------------------------------------------
module DFFS (
input SET, // Set input
input CK, // Clock Input
input D, // Data Input
output Q, // Q output
output QN // QB output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ ( posedge CK or posedge SET)
if (SET) begin
q_reg <= 1'b1;
end else begin
q_reg <= D;
end
assign Q = q_reg;
assign QN = ~q_reg;
endmodule //End Of Module
//-----------------------------------------------------
// Function : D-type flip-flop with
// - asynchronous active low set
//-----------------------------------------------------
module DFFSN (
input SETN, // Set input
input CK, // Clock Input
input D, // Data Input
output Q, // Q output
output QN // QB output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ ( posedge CK or negedge SETN)
if (~SETN) begin
q_reg <= 1'b1;
end else begin
q_reg <= D;
end
assign Q = q_reg;
assign QN = ~q_reg;
endmodule //End Of Module
//-----------------------------------------------------
// Function : D-type flip-flop with
// - asynchronous active high reset
// - asynchronous active high set
//-----------------------------------------------------
module DFFSR (
input SET, // set input
input RST, // Reset input
input CK, // Clock Input
input D, // Data Input
output Q, // Q output
output QN // QB output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ ( posedge CK or posedge RST or posedge SET)
if (RST) begin
q_reg <= 1'b0;
end else if (SET) begin
q_reg <= 1'b1;
end else begin
q_reg <= D;
end
assign Q = q_reg;
assign QN = ~q_reg;
endmodule //End Of Module
//-----------------------------------------------------
// Function : D-type flip-flop with
// - asynchronous active high reset
// - asynchronous active high set
//-----------------------------------------------------
module DFFSRQ (
input SET, // set input
input RST, // Reset input
input CK, // Clock Input
input D, // Data Input
output Q // Q output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ ( posedge CK or posedge RST or posedge SET)
if (RST) begin
q_reg <= 1'b0;
end else if (SET) begin
q_reg <= 1'b1;
end else begin
q_reg <= D;
end
assign Q = q_reg;
endmodule //End Of Module
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//-----------------------------------------------------
// Function : A multi-functional D-type flip-flop with
// - asynchronous reset
// which can be switched between active-low and active hight
// - asynchronous set which can be switched
// which can be switched between active-low and active hight
//-----------------------------------------------------
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module MULTI_MODE_DFFSRQ (
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input SET, // Set input
input RST, // Reset input
input CK, // Clock Input
input D, // Data Input
output Q, // Q output
input [0:1] mode // mode-selection bits: bit0 for reset polarity; bit1 for set polarity
);
wire post_set = mode ? ~SET : SET;
wire post_reset = mode ? ~RST : RST;
DFFSRQ FF_CORE (.SET(post_set),
.RST(post_rst),
.CK(CK),
.D(D),
.Q(Q)
);
endmodule //End Of Module
//-----------------------------------------------------
// Function : D-type flip-flop with
// - asynchronous active high reset
// - asynchronous active high set
// - scan-chain input
// - a scan-chain enable
//-----------------------------------------------------
module SDFFSR (
input SET, // Set input
input RST, // Reset input
input CK, // Clock Input
input SE, // Scan-chain Enable
input D, // Data Input
input SI, // Scan-chain input
output Q, // Q output
output QN // Q negative output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ ( posedge CK or posedge RST or posedge SET)
if (RST) begin
q_reg <= 1'b0;
end else if (SET) begin
q_reg <= 1'b1;
end else if (SE) begin
q_reg <= SI;
end else begin
q_reg <= D;
end
assign Q = q_reg;
assign QN = !Q;
endmodule //End Of Module
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//-----------------------------------------------------
// Function : D-type flip-flop with
// - asynchronous active high reset
// - scan-chain input
// - a scan-chain enable
//-----------------------------------------------------
module SDFFRQ (
input RST, // Reset input
input CK, // Clock Input
input SE, // Scan-chain Enable
input D, // Data Input
input SI, // Scan-chain input
output Q // Q output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ ( posedge CK or posedge RST)
if (RST) begin
q_reg <= 1'b0;
end else if (SE) begin
q_reg <= SI;
end else begin
q_reg <= D;
end
assign Q = q_reg;
endmodule //End Of Module
//-----------------------------------------------------
// Function : D-type flip-flop with
// - asynchronous active high reset
// - asynchronous active high set
// - scan-chain input
// - a scan-chain enable
//-----------------------------------------------------
module SDFFSRQ (
input SET, // Set input
input RST, // Reset input
input CK, // Clock Input
input SE, // Scan-chain Enable
input D, // Data Input
input SI, // Scan-chain input
output Q // Q output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ ( posedge CK or posedge RST or posedge SET)
if (RST) begin
q_reg <= 1'b0;
end else if (SET) begin
q_reg <= 1'b1;
end else if (SE) begin
q_reg <= SI;
end else begin
q_reg <= D;
end
assign Q = q_reg;
endmodule //End Of Module
//-----------------------------------------------------
// Function : D-type flip-flop with
// - asynchronous active high reset
// - scan-chain input
// - a scan-chain enable
// - a configure enable, when enabled the registered output will
// be released to the Q
//-----------------------------------------------------
module CFGSDFFR (
input RST, // Reset input
input CK, // Clock Input
input SE, // Scan-chain Enable
input D, // Data Input
input SI, // Scan-chain input
input CFGE, // Configure enable
output Q, // Regular Q output
output CFGQ, // Data Q output which is released when configure enable is activated
output CFGQN // Data Qb output which is released when configure enable is activated
);
//------------Internal Variables--------
reg q_reg;
wire QN;
//-------------Code Starts Here---------
always @ ( posedge CK or posedge RST)
if (RST) begin
q_reg <= 1'b0;
end else if (SE) begin
q_reg <= SI;
end else begin
q_reg <= D;
end
assign CFGQ = CFGE ? Q : 1'b0;
assign CFGQN = CFGE ? QN : 1'b1;
assign Q = q_reg;
assign QN = !Q;
endmodule //End Of Module