// SPDX-FileCopyrightText: 2020 Efabless Corporation // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // SPDX-License-Identifier: Apache-2.0 // `default_nettype none /* Define the array of GPIO pads. Note that the analog project support * version of caravel (caravan) defines fewer GPIO and replaces them * with analog in the chip_io_alt module. Because the pad signalling * remains the same, `MPRJ_IO_PADS does not change, so a local parameter * is made that can be made smaller than `MPRJ_IO_PADS to accommodate * the analog pads. */ module mprj_io #( parameter AREA1PADS = `MPRJ_IO_PADS_1, parameter TOTAL_PADS = `MPRJ_IO_PADS ) ( inout vddio, inout vssio, inout vdda, inout vssa, inout vccd, inout vssd, inout vdda1, inout vdda2, inout vssa1, inout vssa2, input vddio_q, input vssio_q, input analog_a, input analog_b, input porb_h, inout [TOTAL_PADS-1:0] io, input [TOTAL_PADS-1:0] io_out, input [TOTAL_PADS-1:0] oeb, input [TOTAL_PADS-1:0] hldh_n, input [TOTAL_PADS-1:0] enh, input [TOTAL_PADS-1:0] inp_dis, input [TOTAL_PADS-1:0] ib_mode_sel, input [TOTAL_PADS-1:0] vtrip_sel, input [TOTAL_PADS-1:0] slow_sel, input [TOTAL_PADS-1:0] holdover, input [TOTAL_PADS-1:0] analog_en, input [TOTAL_PADS-1:0] analog_sel, input [TOTAL_PADS-1:0] analog_pol, input [TOTAL_PADS*3-1:0] dm, output [TOTAL_PADS-1:0] io_in, output [TOTAL_PADS-1:0] io_in_3v3, inout [TOTAL_PADS-10:0] analog_io, inout [TOTAL_PADS-10:0] analog_noesd_io ); wire [TOTAL_PADS-1:0] loop1_io; wire [6:0] no_connect_1a, no_connect_1b; wire [1:0] no_connect_2a, no_connect_2b; sky130_ef_io__gpiov2_pad_wrapped area1_io_pad [AREA1PADS - 1:0] ( `USER1_ABUTMENT_PINS `ifndef TOP_ROUTING ,.PAD(io[AREA1PADS - 1:0]), `endif .OUT(io_out[AREA1PADS - 1:0]), .OE_N(oeb[AREA1PADS - 1:0]), .HLD_H_N(hldh_n[AREA1PADS - 1:0]), .ENABLE_H(enh[AREA1PADS - 1:0]), .ENABLE_INP_H(loop1_io[AREA1PADS - 1:0]), .ENABLE_VDDA_H(porb_h), .ENABLE_VSWITCH_H(vssio), .ENABLE_VDDIO(vccd), .INP_DIS(inp_dis[AREA1PADS - 1:0]), .IB_MODE_SEL(ib_mode_sel[AREA1PADS - 1:0]), .VTRIP_SEL(vtrip_sel[AREA1PADS - 1:0]), .SLOW(slow_sel[AREA1PADS - 1:0]), .HLD_OVR(holdover[AREA1PADS - 1:0]), .ANALOG_EN(analog_en[AREA1PADS - 1:0]), .ANALOG_SEL(analog_sel[AREA1PADS - 1:0]), .ANALOG_POL(analog_pol[AREA1PADS - 1:0]), .DM(dm[AREA1PADS*3 - 1:0]), .PAD_A_NOESD_H({analog_noesd_io[AREA1PADS - 8:0], no_connect_1a}), .PAD_A_ESD_0_H({analog_io[AREA1PADS - 8:0], no_connect_1b}), .PAD_A_ESD_1_H(), .IN(io_in[AREA1PADS - 1:0]), .IN_H(io_in_3v3[AREA1PADS - 1:0]), .TIE_HI_ESD(), .TIE_LO_ESD(loop1_io[AREA1PADS - 1:0]) ); sky130_ef_io__gpiov2_pad_wrapped area2_io_pad [TOTAL_PADS - AREA1PADS - 1:0] ( `USER2_ABUTMENT_PINS `ifndef TOP_ROUTING ,.PAD(io[TOTAL_PADS - 1:AREA1PADS]), `endif .OUT(io_out[TOTAL_PADS - 1:AREA1PADS]), .OE_N(oeb[TOTAL_PADS - 1:AREA1PADS]), .HLD_H_N(hldh_n[TOTAL_PADS - 1:AREA1PADS]), .ENABLE_H(enh[TOTAL_PADS - 1:AREA1PADS]), .ENABLE_INP_H(loop1_io[TOTAL_PADS - 1:AREA1PADS]), .ENABLE_VDDA_H(porb_h), .ENABLE_VSWITCH_H(vssio), .ENABLE_VDDIO(vccd), .INP_DIS(inp_dis[TOTAL_PADS - 1:AREA1PADS]), .IB_MODE_SEL(ib_mode_sel[TOTAL_PADS - 1:AREA1PADS]), .VTRIP_SEL(vtrip_sel[TOTAL_PADS - 1:AREA1PADS]), .SLOW(slow_sel[TOTAL_PADS - 1:AREA1PADS]), .HLD_OVR(holdover[TOTAL_PADS - 1:AREA1PADS]), .ANALOG_EN(analog_en[TOTAL_PADS - 1:AREA1PADS]), .ANALOG_SEL(analog_sel[TOTAL_PADS - 1:AREA1PADS]), .ANALOG_POL(analog_pol[TOTAL_PADS - 1:AREA1PADS]), .DM(dm[TOTAL_PADS*3 - 1:AREA1PADS*3]), .PAD_A_NOESD_H({no_connect_2a, analog_noesd_io[TOTAL_PADS - 10:AREA1PADS - 7]}), .PAD_A_ESD_0_H({no_connect_2b, analog_io[TOTAL_PADS - 10:AREA1PADS - 7]}), .PAD_A_ESD_1_H(), .IN(io_in[TOTAL_PADS - 1:AREA1PADS]), .IN_H(io_in_3v3[TOTAL_PADS - 1:AREA1PADS]), .TIE_HI_ESD(), .TIE_LO_ESD(loop1_io[TOTAL_PADS - 1:AREA1PADS]) ); endmodule // `default_nettype wire