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[/] [srdydrdy_lib/] [trunk/] [rtl/] [verilog/] [utility/] [sd_ring_node.v] - Rev 18
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//---------------------------------------------------------------------- // Single Cycle RING Node [sd_ring_node] // // Halts timing on all interfaces, no combinational passthrough // Inputs are used unregistered // All outputs are registered // Four Interfaces // RP -> Ring Previous : Ring data arrives on this interface // RP -> Ring Next : Ring Data leaves on this interface // P -> Producer : Destination offload interface // C -> Consumer : Data Injection Interface //---------------------------------------------------------------------- // // Author: Awais Nemat // // This block is uncopyrighted and released into the public domain. //---------------------------------------------------------------------- module sd_ring_node #(parameter data_width = 8, parameter addr_width = 8, parameter my_addr = 8'h1) ( input clk, input reset, input rp_srdy, output rp_drdy, input [data_width-1:0] rp_data, input [addr_width-1:0] rp_addr, output rn_srdy, input rn_drdy, output [data_width-1:0] rn_data, output [addr_width-1:0] rn_addr, input c_srdy, output c_drdy, input [data_width-1:0] c_data, input [addr_width-1:0] c_addr, output p_srdy, input p_drdy, output [data_width-1:0] p_data, output [addr_width-1:0] p_addr ); // All Combinational Signals // reg's are functions of other signals // NOT registered though wire rp_srdy_o; reg rp_drdy_i; wire [data_width-1:0] rp_data_o; wire [addr_width-1:0] rp_addr_o; reg rn_srdy_i; wire rn_drdy_o; wire s_srdy_o; reg s_drdy_i; wire [data_width-1:0] s_data_o; wire [addr_width-1:0] s_addr_o; reg d_srdy_i; wire d_drdy_o; wire [data_width-1:0] d_data_i = rp_data_o; wire [addr_width-1:0] d_addr_i = rp_addr_o; reg d; // Asserted if address matches reg [data_width-1:0] data_o; // Mux Selected Data, S:RP reg [addr_width-1:0] addr_o; // Mux Selected Adda, S:RP always @* begin // Compute if this module is the Destination d = rp_srdy_o & (rp_addr_o == my_addr); // Pop data from RP destined to this instance when space is available in 'D' // OR when not destined to this instance and space is available in RN rp_drdy_i = (d) ? d_drdy_o : rn_drdy_o ; // Indicate data availability to RN, when S has data OR when RP has // data that is NOT Destined to D rn_srdy_i = s_srdy_o | (rp_srdy_o & ~d); // Indicate data availability to D, when it becomes available in RP // and it is destined to this instance d_srdy_i = rp_srdy_o & d; // Indicate space availability to S, when it becomes available is RN // and there is not Data in RP that needs to be passed on to RN. if ( d & rp_srdy_o & rn_drdy_o ) s_drdy_i = 1; // Exception: When data in RP is destined to this instance and // space in RN is available, S could transmit to RN else if ( rp_srdy_o & rn_drdy_o ) s_drdy_i = 0; // When Data is present in RP and is NOT destined to this instance // S cannot transmit to RN. RP has absolute priority over S else if (rn_drdy_o) s_drdy_i = 1; // No Data is Present in RP and RN has space, S could transmit else s_drdy_i = 0; // this is the default behaviour <MAY CHANGE; DEADLOCK?> // Mux the Data and the Address data_o = (s_drdy_i) ? s_data_o : rp_data_o; addr_o = (s_drdy_i) ? s_addr_o : rp_addr_o; end // Instantiate the primitives sd_output #(.width (data_width+addr_width)) RN_i0 (.clk(clk), .reset (reset), .srdy_in(rn_srdy_i), .drdy_in(rn_drdy_o), .data_in({addr_o,data_o}), .srdy_out(rn_srdy), .drdy_out(rn_drdy), .data_out({rn_addr,rn_data})); sd_output #(.width (data_width+addr_width)) D_i0 (.clk(clk), .reset (reset), .srdy_in(d_srdy_i), .drdy_in(d_drdy_o), .data_in({d_addr_i,d_data_i}), .srdy_out(p_srdy), .drdy_out(p_drdy), .data_out({p_addr,p_data})); sd_input #(.width (data_width+addr_width)) RP_i0 (.clk(clk), .reset (reset), .srdy_in(rp_srdy), .drdy_in(rp_drdy), .data_in({rp_addr,rp_data}), .srdy_out(rp_srdy_o), .drdy_out(rp_drdy_i), .data_out({rp_addr_o,rp_data_o})); sd_input #(.width (data_width+addr_width)) S_i0 (.clk(clk), .reset (reset), .srdy_in(c_srdy), .drdy_in(c_drdy), .data_in({c_addr,c_data}), .srdy_out(s_srdy_o), .drdy_out(s_drdy_i), .data_out({s_addr_o,s_data_o})); endmodule