| // 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 |
| /*----------------------------------------------------------------------*/ |
| /* Buffers protecting the management region from the user region. */ |
| /* This mainly consists of tristate buffers that are enabled by a */ |
| /* "logic 1" output connected to the user's VCCD domain. This ensures */ |
| /* that the buffer is disabled and the output high-impedence when the */ |
| /* user 1.8V supply is absent. */ |
| /*----------------------------------------------------------------------*/ |
| /* Because there is no tristate buffer with a non-inverted enable, a */ |
| /* tristate inverter with non-inverted enable is used in series with */ |
| /* another (normal) inverter. */ |
| /*----------------------------------------------------------------------*/ |
| /* For the sake of placement/routing, one conb (logic 1) cell is used */ |
| /* for every buffer. */ |
| /*----------------------------------------------------------------------*/ |
| |
| module mgmt_protect ( |
| `ifdef USE_POWER_PINS |
| inout vccd, |
| inout vssd, |
| inout vccd1, |
| inout vssd1, |
| inout vccd2, |
| inout vssd2, |
| inout vdda1, |
| inout vssa1, |
| inout vdda2, |
| inout vssa2, |
| `endif |
| |
| input caravel_clk, |
| input caravel_clk2, |
| input caravel_rstn, |
| input mprj_cyc_o_core, |
| input mprj_stb_o_core, |
| input mprj_we_o_core, |
| input [3:0] mprj_sel_o_core, |
| input [31:0] mprj_adr_o_core, |
| input [31:0] mprj_dat_o_core, |
| |
| // All signal in/out directions are the reverse of the signal |
| // names at the buffer intrface. |
| |
| output [127:0] la_data_in_mprj, |
| input [127:0] la_data_out_mprj, |
| input [127:0] la_oen_mprj, |
| |
| input [127:0] la_data_out_core, |
| output [127:0] la_data_in_core, |
| output [127:0] la_oen_core, |
| |
| output user_clock, |
| output user_clock2, |
| output user_resetn, |
| output user_reset, |
| output mprj_cyc_o_user, |
| output mprj_stb_o_user, |
| output mprj_we_o_user, |
| output [3:0] mprj_sel_o_user, |
| output [31:0] mprj_adr_o_user, |
| output [31:0] mprj_dat_o_user, |
| output user1_vcc_powergood, |
| output user2_vcc_powergood, |
| output user1_vdd_powergood, |
| output user2_vdd_powergood |
| ); |
| |
| wire [458:0] mprj_logic1; |
| wire mprj2_logic1; |
| |
| wire mprj_vdd_logic1_h; |
| wire mprj2_vdd_logic1_h; |
| wire mprj_vdd_logic1; |
| wire mprj2_vdd_logic1; |
| |
| wire user1_vcc_powergood; |
| wire user2_vcc_powergood; |
| wire user1_vdd_powergood; |
| wire user2_vdd_powergood; |
| |
| wire [127:0] la_data_in_mprj_bar; |
| |
| mprj_logic_high mprj_logic_high_inst ( |
| `ifdef USE_POWER_PINS |
| .vccd1(vccd1), |
| .vssd1(vssd1), |
| `endif |
| .HI(mprj_logic1) |
| ); |
| |
| mprj2_logic_high mprj2_logic_high_inst ( |
| `ifdef USE_POWER_PINS |
| .vccd2(vccd2), |
| .vssd2(vssd2), |
| `endif |
| .HI(mprj2_logic1) |
| ); |
| |
| // Logic high in the VDDA (3.3V) domains |
| |
| mgmt_protect_hv powergood_check ( |
| `ifdef USE_POWER_PINS |
| .vccd(vccd), |
| .vssd(vssd), |
| .vdda1(vdda1), |
| .vssa1(vssa1), |
| .vdda2(vdda2), |
| .vssa2(vssa2), |
| `endif |
| .mprj_vdd_logic1(mprj_vdd_logic1), |
| .mprj2_vdd_logic1(mprj2_vdd_logic1) |
| ); |
| |
| |
| // Buffering from the user side to the management side. |
| // NOTE: This is intended to be better protected, by a full |
| // chain of an lv-to-hv buffer followed by an hv-to-lv buffer. |
| // This serves as a placeholder until that configuration is |
| // checked and characterized. The function below forces the |
| // data input to the management core to be a solid logic 0 when |
| // the user project is powered down. |
| |
| sky130_fd_sc_hd__nand2_4 user_to_mprj_in_gates [127:0] ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .Y(la_data_in_mprj_bar), |
| .A(la_data_out_core), |
| .B(mprj_logic1[457:330]) |
| ); |
| |
| sky130_fd_sc_hd__inv_8 user_to_mprj_in_buffers [127:0] ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .Y(la_data_in_mprj), |
| .A(la_data_in_mprj_bar) |
| ); |
| |
| // The remaining circuitry guards against the management |
| // SoC dumping current into the user project area when |
| // the user project area is powered down. |
| |
| sky130_fd_sc_hd__einvp_8 mprj_rstn_buf ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .Z(user_resetn), |
| .A(~caravel_rstn), |
| .TE(mprj_logic1[0]) |
| ); |
| |
| assign user_reset = ~user_resetn; |
| |
| sky130_fd_sc_hd__einvp_8 mprj_clk_buf ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .Z(user_clock), |
| .A(~caravel_clk), |
| .TE(mprj_logic1[1]) |
| ); |
| |
| sky130_fd_sc_hd__einvp_8 mprj_clk2_buf ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .Z(user_clock2), |
| .A(~caravel_clk2), |
| .TE(mprj_logic1[2]) |
| ); |
| |
| sky130_fd_sc_hd__einvp_8 mprj_cyc_buf ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .Z(mprj_cyc_o_user), |
| .A(~mprj_cyc_o_core), |
| .TE(mprj_logic1[3]) |
| ); |
| |
| sky130_fd_sc_hd__einvp_8 mprj_stb_buf ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .Z(mprj_stb_o_user), |
| .A(~mprj_stb_o_core), |
| .TE(mprj_logic1[4]) |
| ); |
| |
| sky130_fd_sc_hd__einvp_8 mprj_we_buf ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .Z(mprj_we_o_user), |
| .A(~mprj_we_o_core), |
| .TE(mprj_logic1[5]) |
| ); |
| |
| sky130_fd_sc_hd__einvp_8 mprj_sel_buf [3:0] ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .Z(mprj_sel_o_user), |
| .A(~mprj_sel_o_core), |
| .TE(mprj_logic1[9:6]) |
| ); |
| |
| sky130_fd_sc_hd__einvp_8 mprj_adr_buf [31:0] ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .Z(mprj_adr_o_user), |
| .A(~mprj_adr_o_core), |
| .TE(mprj_logic1[41:10]) |
| ); |
| |
| sky130_fd_sc_hd__einvp_8 mprj_dat_buf [31:0] ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .Z(mprj_dat_o_user), |
| .A(~mprj_dat_o_core), |
| .TE(mprj_logic1[73:42]) |
| ); |
| |
| /* Project data out from the managment side to the user project */ |
| /* area when the user project is powered down. */ |
| |
| sky130_fd_sc_hd__einvp_8 la_buf [127:0] ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .Z(la_data_in_core), |
| .A(~la_data_out_mprj), |
| .TE(mprj_logic1[201:74]) |
| ); |
| |
| /* Project data out enable (bar) from the managment side to the */ |
| /* user project area when the user project is powered down. */ |
| |
| sky130_fd_sc_hd__einvp_8 user_to_mprj_oen_buffers [127:0] ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .Z(la_oen_core), |
| .A(~la_oen_mprj), |
| .TE(mprj_logic1[329:202]) |
| ); |
| |
| /* The conb cell output is a resistive connection directly to */ |
| /* the power supply, so when returning the user1_powergood */ |
| /* signal, make sure that it is buffered properly. */ |
| |
| sky130_fd_sc_hd__buf_8 mprj_pwrgood ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .A(mprj_logic1[458]), |
| .X(user1_vcc_powergood) |
| ); |
| |
| sky130_fd_sc_hd__buf_8 mprj2_pwrgood ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .A(mprj2_logic1), |
| .X(user2_vcc_powergood) |
| ); |
| |
| sky130_fd_sc_hd__buf_8 mprj_vdd_pwrgood ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .A(mprj_vdd_logic1), |
| .X(user1_vdd_powergood) |
| ); |
| |
| sky130_fd_sc_hd__buf_8 mprj2_vdd_pwrgood ( |
| `ifdef USE_POWER_PINS |
| .VPWR(vccd), |
| .VGND(vssd), |
| .VPB(vccd), |
| .VNB(vssd), |
| `endif |
| .A(mprj2_vdd_logic1), |
| .X(user2_vdd_powergood) |
| ); |
| endmodule |
| `default_nettype wire |