// ========== Copyright Header Begin ========================================== // // OpenSPARC T2 Processor File: ncu_c2ibuf32_ctl.v // Copyright (C) 1995-2007 Sun Microsystems, Inc. All Rights Reserved // 4150 Network Circle, Santa Clara, California 95054, U.S.A. // // * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; version 2 of the License. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // For the avoidance of doubt, and except that if any non-GPL license // choice is available it will apply instead, Sun elects to use only // the General Public License version 2 (GPLv2) at this time for any // software where a choice of GPL license versions is made // available with the language indicating that GPLv2 or any later version // may be used, or where a choice of which version of the GPL is applied is // otherwise unspecified. // // Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, // CA 95054 USA or visit www.sun.com if you need additional information or // have any questions. // // ========== Copyright Header End ============================================ module ncu_c2ibuf32_ctl ( iol2clk, tcu_scan_en, scan_in, scan_out, tcu_pce_ov, tcu_clk_stop, tcu_aclk, tcu_bclk, tcu_dbr_gateoff, c2i_packet_vld, ucb_sel, ucb_buf_acpt, c2i_packet, iob_ucb_vld, iob_ucb_data, ucb_iob_stall) ; wire dbl_buf_wr; wire dbl_buf_full; wire dbl_buf_rd; wire dbl_buf_vld; wire outdata_buf_busy; wire outdata_buf_wr; wire wr_buf0; wire buf1_vld; wire buf0_vld; wire buf1_older; wire wr_buf1; wire rd_buf0; wire rd_buf1; wire rd_buf; wire buf1_older_n; wire buf1_older_ff_scanin; wire buf1_older_ff_scanout; wire l1clk; wire en_vld0; wire en_vld1; wire buf0_vld_ff_scanin; wire buf0_vld_ff_scanout; wire buf1_vld_ff_scanin; wire buf1_vld_ff_scanout; wire buf0_obj_p_ff_scanin; wire buf0_obj_p_ff_scanout; wire [63:0] buf0_obj_p; wire buf0_obj_h_ff_scanin; wire buf0_obj_h_ff_scanout; wire [54:0] buf0_obj_h; wire buf1_obj_p_ff_scanin; wire buf1_obj_p_ff_scanout; wire [63:0] buf1_obj_p; wire buf1_obj_h_ff_scanin; wire buf1_obj_h_ff_scanout; wire [54:0] buf1_obj_h; wire [127:0] outdata_buf_in; wire [3:0] outdata_vec; wire [127:0] outdata_buf; wire rdy0_ff_scanin; wire rdy0_ff_scanout; wire rdy0; wire rdy1_ff_scanin; wire rdy1_ff_scanout; wire rdy1; wire stall_d1_ff_scanin; wire stall_d1_ff_scanout; wire stall_d1; wire load_outdata; wire shift_outdata; wire [3:0] outdata_vec_next; wire outdata_vec_ff_scanin; wire outdata_vec_ff_scanout; wire [127:0] outdata_buf_next; wire outdata_buf_ff_scanin; wire outdata_buf_ff_scanout; wire siclk; wire soclk; wire se; wire pce_ov; wire stop; //////////////////////////////////////////////////////////////////////// // Signal declarations //////////////////////////////////////////////////////////////////////// // Global interface input iol2clk; input tcu_scan_en; input scan_in; output scan_out; input tcu_pce_ov; input tcu_clk_stop; input tcu_aclk; input tcu_bclk; input tcu_dbr_gateoff; // slow control interface input c2i_packet_vld; input ucb_sel; output ucb_buf_acpt; // slow datapath interface input [127:0] c2i_packet; // UCB interface output iob_ucb_vld; output [31:0] iob_ucb_data; input ucb_iob_stall; // Internal signals //////////////////////////////////////////////////////////////////////// // Code starts here //////////////////////////////////////////////////////////////////////// assign dbl_buf_wr = c2i_packet_vld & ucb_sel & ~dbl_buf_full; assign ucb_buf_acpt = dbl_buf_wr; assign dbl_buf_rd = dbl_buf_vld & ~outdata_buf_busy; assign outdata_buf_wr = dbl_buf_rd; //assign outdata_vec_in = {128/UCB_BUS_WIDTH{1'b1}}; /****************************************************************** //dbl_buf #(128) dbl_buf ( // .clk(l2clk), // .wr(dbl_buf_wr), // .din(c2i_packet[127:0]), // .rd(dbl_buf_rd), // .dout(outdata_buf_in[127:0]), // .vld(dbl_buf_vld), // .full(dbl_buf_full)); ******************************************************************/ assign wr_buf0 = dbl_buf_wr & (buf1_vld | (~buf0_vld & ~buf1_older)); assign wr_buf1 = dbl_buf_wr & (buf0_vld | (~buf1_vld & buf1_older)); // read from the older entry assign rd_buf0 = dbl_buf_rd & ~buf1_older; assign rd_buf1 = dbl_buf_rd & buf1_older; // flip older pointer when an entry is read assign rd_buf = dbl_buf_rd & (buf0_vld | buf1_vld); assign buf1_older_n = ~buf1_older; ncu_c2ibuf32_ctl_msff_ctl_macro__en_1__width_1 buf1_older_ff ( .scan_in(buf1_older_ff_scanin), .scan_out(buf1_older_ff_scanout), .dout (buf1_older), .l1clk (l1clk), .en (rd_buf), .din (buf1_older_n), .siclk(siclk), .soclk(soclk) ); // set valid bit for writes and reset for reads assign en_vld0 = wr_buf0 | rd_buf0; assign en_vld1 = wr_buf1 | rd_buf1; // the actual buffers ncu_c2ibuf32_ctl_msff_ctl_macro__en_1__width_1 buf0_vld_ff ( .scan_in(buf0_vld_ff_scanin), .scan_out(buf0_vld_ff_scanout), .dout (buf0_vld), .l1clk (l1clk), .en (en_vld0), .din (wr_buf0), .siclk(siclk), .soclk(soclk) ); ncu_c2ibuf32_ctl_msff_ctl_macro__en_1__width_1 buf1_vld_ff ( .scan_in(buf1_vld_ff_scanin), .scan_out(buf1_vld_ff_scanout), .dout (buf1_vld), .l1clk (l1clk), .en (en_vld1), .din (wr_buf1), .siclk(siclk), .soclk(soclk) ); ncu_c2ibuf32_ctl_msff_ctl_macro__en_1__width_64 buf0_obj_p_ff ( .scan_in(buf0_obj_p_ff_scanin), .scan_out(buf0_obj_p_ff_scanout), .dout (buf0_obj_p[63:0]), .l1clk (l1clk), .en (wr_buf0), .din (c2i_packet[127:64]), .siclk(siclk), .soclk(soclk) ); ncu_c2ibuf32_ctl_msff_ctl_macro__en_1__width_55 buf0_obj_h_ff ( .scan_in(buf0_obj_h_ff_scanin), .scan_out(buf0_obj_h_ff_scanout), .dout (buf0_obj_h[54:0]), .l1clk (l1clk), .en (wr_buf0), .din (c2i_packet[54:0]), .siclk(siclk), .soclk(soclk) ); ncu_c2ibuf32_ctl_msff_ctl_macro__en_1__width_64 buf1_obj_p_ff ( .scan_in(buf1_obj_p_ff_scanin), .scan_out(buf1_obj_p_ff_scanout), .dout (buf1_obj_p[63:0]), .l1clk (l1clk), .en (wr_buf1), .din (c2i_packet[127:64]), .siclk(siclk), .soclk(soclk) ); ncu_c2ibuf32_ctl_msff_ctl_macro__en_1__width_55 buf1_obj_h_ff ( .scan_in(buf1_obj_h_ff_scanin), .scan_out(buf1_obj_h_ff_scanout), .dout (buf1_obj_h[54:0]), .l1clk (l1clk), .en (wr_buf1), .din (c2i_packet[54:0]), .siclk(siclk), .soclk(soclk) ); // mux out the older entry //assign outdata_buf_in[127:0] = (buf1_older) ? buf1_obj[127:0] : buf0_obj[127:0] ; assign outdata_buf_in[127:0] = (buf1_older) ? {buf1_obj_p[63:0],9'b0,buf1_obj_h[54:0]} : {buf0_obj_p[63:0],9'b0,buf0_obj_h[54:0]} ; assign dbl_buf_vld = buf0_vld | buf1_vld; assign dbl_buf_full = buf0_vld & buf1_vld; /******************************************************************* //ucb_bus_out #(UCB_BUS_WIDTH) ucb_bus_out ( // .clk(l2clk), // .outdata_buf_wr(outdata_buf_wr), // .outdata_buf_in(outdata_buf_in[127:0]), // .outdata_vec_in(outdata_vec_in[128/UCB_BUS_WIDTH-1:0]), // .outdata_buf_busy(outdata_buf_busy), // .vld(iob_ucb_vld), // .data(iob_ucb_data[UCB_BUS_WIDTH-1:0]), // .stall(ucb_iob_stall)); *******************************************************************/ assign iob_ucb_vld = outdata_vec[0] & tcu_dbr_gateoff; assign iob_ucb_data[31:0] = outdata_buf[31:0]; ncu_c2ibuf32_ctl_msff_ctl_macro__width_1 rdy0_ff ( .scan_in(rdy0_ff_scanin), .scan_out(rdy0_ff_scanout), .dout (rdy0), .l1clk (l1clk), .din (1'b1), .siclk(siclk), .soclk(soclk) ); ncu_c2ibuf32_ctl_msff_ctl_macro__width_1 rdy1_ff ( .scan_in(rdy1_ff_scanin), .scan_out(rdy1_ff_scanout), .dout (rdy1), .l1clk (l1clk), .din (rdy0), .siclk(siclk), .soclk(soclk) ); ncu_c2ibuf32_ctl_msff_ctl_macro__en_1__width_1 stall_d1_ff ( .scan_in(stall_d1_ff_scanin), .scan_out(stall_d1_ff_scanout), .dout (stall_d1), .l1clk (l1clk), .en (rdy1), .din (ucb_iob_stall), .siclk(siclk), .soclk(soclk) ); /************************************************************ * Outbound Data ************************************************************/ // accept new data only if there is none being processed assign load_outdata = outdata_buf_wr & ~outdata_buf_busy; assign outdata_buf_busy = outdata_vec[0] | stall_d1; assign shift_outdata = outdata_vec[0] & ~stall_d1; assign outdata_vec_next[3:0] = //load_outdata ? outdata_vec_in[3:0] : load_outdata ? 4'b1111 : //shift_outdata ? outdata_vec[128/UCB_BUS_WIDTH-1:0] >> 1 : shift_outdata ? {1'b0,outdata_vec[3:1]} : outdata_vec[3:0] ; ncu_c2ibuf32_ctl_msff_ctl_macro__width_4 outdata_vec_ff ( .scan_in(outdata_vec_ff_scanin), .scan_out(outdata_vec_ff_scanout), .dout (outdata_vec[3:0]), .l1clk (l1clk), .din (outdata_vec_next[3:0]), .siclk(siclk), .soclk(soclk) ); assign outdata_buf_next[127:0] = load_outdata ? outdata_buf_in[127:0] : shift_outdata ? (outdata_buf[127:0] >> 32) : outdata_buf[127:0] ; ncu_c2ibuf32_ctl_msff_ctl_macro__width_128 outdata_buf_ff ( .scan_in(outdata_buf_ff_scanin), .scan_out(outdata_buf_ff_scanout), .dout (outdata_buf[127:0]), .l1clk (l1clk), .din (outdata_buf_next[127:0]), .siclk(siclk), .soclk(soclk) ); /**** adding clock header ****/ ncu_c2ibuf32_ctl_l1clkhdr_ctl_macro clkgen ( .l2clk (iol2clk), .l1en (1'b1), .l1clk (l1clk), .pce_ov(pce_ov), .stop(stop), .se(se) ); /*** building tcu port ***/ assign siclk = tcu_aclk; assign soclk = tcu_bclk; assign se = tcu_scan_en; assign pce_ov = tcu_pce_ov; assign stop = tcu_clk_stop; // fixscan start: assign buf1_older_ff_scanin = scan_in ; assign buf0_vld_ff_scanin = buf1_older_ff_scanout ; assign buf1_vld_ff_scanin = buf0_vld_ff_scanout ; assign buf0_obj_p_ff_scanin = buf1_vld_ff_scanout ; assign buf0_obj_h_ff_scanin = buf0_obj_p_ff_scanout ; assign buf1_obj_p_ff_scanin = buf0_obj_h_ff_scanout ; assign buf1_obj_h_ff_scanin = buf1_obj_p_ff_scanout ; assign rdy0_ff_scanin = buf1_obj_h_ff_scanout ; assign rdy1_ff_scanin = rdy0_ff_scanout ; assign stall_d1_ff_scanin = rdy1_ff_scanout ; assign outdata_vec_ff_scanin = stall_d1_ff_scanout ; assign outdata_buf_ff_scanin = outdata_vec_ff_scanout ; assign scan_out = outdata_buf_ff_scanout ; // fixscan end: endmodule // c2i_buf // any PARAMS parms go into naming of macro module ncu_c2ibuf32_ctl_msff_ctl_macro__en_1__width_1 ( din, en, l1clk, scan_in, siclk, soclk, dout, scan_out); wire [0:0] fdin; input [0:0] din; input en; input l1clk; input scan_in; input siclk; input soclk; output [0:0] dout; output scan_out; assign fdin[0:0] = (din[0:0] & {1{en}}) | (dout[0:0] & ~{1{en}}); dff #(1) d0_0 ( .l1clk(l1clk), .siclk(siclk), .soclk(soclk), .d(fdin[0:0]), .si(scan_in), .so(scan_out), .q(dout[0:0]) ); endmodule // any PARAMS parms go into naming of macro module ncu_c2ibuf32_ctl_msff_ctl_macro__en_1__width_64 ( din, en, l1clk, scan_in, siclk, soclk, dout, scan_out); wire [63:0] fdin; wire [62:0] so; input [63:0] din; input en; input l1clk; input scan_in; input siclk; input soclk; output [63:0] dout; output scan_out; assign fdin[63:0] = (din[63:0] & {64{en}}) | (dout[63:0] & ~{64{en}}); dff #(64) d0_0 ( .l1clk(l1clk), .siclk(siclk), .soclk(soclk), .d(fdin[63:0]), .si({scan_in,so[62:0]}), .so({so[62:0],scan_out}), .q(dout[63:0]) ); endmodule // any PARAMS parms go into naming of macro module ncu_c2ibuf32_ctl_msff_ctl_macro__en_1__width_55 ( din, en, l1clk, scan_in, siclk, soclk, dout, scan_out); wire [54:0] fdin; wire [53:0] so; input [54:0] din; input en; input l1clk; input scan_in; input siclk; input soclk; output [54:0] dout; output scan_out; assign fdin[54:0] = (din[54:0] & {55{en}}) | (dout[54:0] & ~{55{en}}); dff #(55) d0_0 ( .l1clk(l1clk), .siclk(siclk), .soclk(soclk), .d(fdin[54:0]), .si({scan_in,so[53:0]}), .so({so[53:0],scan_out}), .q(dout[54:0]) ); endmodule // any PARAMS parms go into naming of macro module ncu_c2ibuf32_ctl_msff_ctl_macro__width_1 ( din, l1clk, scan_in, siclk, soclk, dout, scan_out); wire [0:0] fdin; input [0:0] din; input l1clk; input scan_in; input siclk; input soclk; output [0:0] dout; output scan_out; assign fdin[0:0] = din[0:0]; dff #(1) d0_0 ( .l1clk(l1clk), .siclk(siclk), .soclk(soclk), .d(fdin[0:0]), .si(scan_in), .so(scan_out), .q(dout[0:0]) ); endmodule // any PARAMS parms go into naming of macro module ncu_c2ibuf32_ctl_msff_ctl_macro__width_4 ( din, l1clk, scan_in, siclk, soclk, dout, scan_out); wire [3:0] fdin; wire [2:0] so; input [3:0] din; input l1clk; input scan_in; input siclk; input soclk; output [3:0] dout; output scan_out; assign fdin[3:0] = din[3:0]; dff #(4) d0_0 ( .l1clk(l1clk), .siclk(siclk), .soclk(soclk), .d(fdin[3:0]), .si({scan_in,so[2:0]}), .so({so[2:0],scan_out}), .q(dout[3:0]) ); endmodule // any PARAMS parms go into naming of macro module ncu_c2ibuf32_ctl_msff_ctl_macro__width_128 ( din, l1clk, scan_in, siclk, soclk, dout, scan_out); wire [127:0] fdin; wire [126:0] so; input [127:0] din; input l1clk; input scan_in; input siclk; input soclk; output [127:0] dout; output scan_out; assign fdin[127:0] = din[127:0]; dff #(128) d0_0 ( .l1clk(l1clk), .siclk(siclk), .soclk(soclk), .d(fdin[127:0]), .si({scan_in,so[126:0]}), .so({so[126:0],scan_out}), .q(dout[127:0]) ); endmodule // any PARAMS parms go into naming of macro module ncu_c2ibuf32_ctl_l1clkhdr_ctl_macro ( l2clk, l1en, pce_ov, stop, se, l1clk); input l2clk; input l1en; input pce_ov; input stop; input se; output l1clk; cl_sc1_l1hdr_8x c_0 ( .l2clk(l2clk), .pce(l1en), .l1clk(l1clk), .se(se), .pce_ov(pce_ov), .stop(stop) ); endmodule