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// 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,
input [2:0] user_irq_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_oenb_mprj,
input [127:0] la_iena_mprj,
input [127:0] la_data_out_core,
output [127:0] la_data_in_core,
output [127:0] la_oenb_core,
input [2:0] user_irq_ena,
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 [2:0] user_irq,
output user1_vcc_powergood,
output user2_vcc_powergood,
output user1_vdd_powergood,
output user2_vdd_powergood
);
wire [461:0] 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;
wire [2:0] user_irq_bar;
wire [127:0] la_data_in_enable;
wire [127:0] la_data_out_enable;
wire [2:0] user_irq_enable;
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__and2_1 user_to_mprj_in_ena_buf [127:0] (
`ifdef USE_POWER_PINS
.VPWR(vccd),
.VGND(vssd),
.VPB(vccd),
.VNB(vssd),
`endif
.X(la_data_in_enable),
.A(la_iena_mprj),
.B(mprj_logic1[457:330])
);
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(la_data_in_enable)
);
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)
);
// Protection, similar to the above, for the three user IRQ lines
sky130_fd_sc_hd__and2_1 user_irq_ena_buf [2:0] (
`ifdef USE_POWER_PINS
.VPWR(vccd),
.VGND(vssd),
.VPB(vccd),
.VNB(vssd),
`endif
.X(user_irq_enable),
.A(user_irq_ena),
.B(mprj_logic1[460:458])
);
sky130_fd_sc_hd__nand2_4 user_irq_gates [2:0] (
`ifdef USE_POWER_PINS
.VPWR(vccd),
.VGND(vssd),
.VPB(vccd),
.VNB(vssd),
`endif
.Y(user_irq_bar),
.A(user_irq_core),
.B(user_irq_enable)
);
sky130_fd_sc_hd__inv_8 user_irq_buffers [2:0] (
`ifdef USE_POWER_PINS
.VPWR(vccd),
.VGND(vssd),
.VPB(vccd),
.VNB(vssd),
`endif
.Y(user_irq),
.A(user_irq_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])
);
/* Create signal to tristate the outputs to the user project */
sky130_fd_sc_hd__and2b_1 la_buf_enable [127:0] (
`ifdef USE_POWER_PINS
.VPWR(vccd),
.VGND(vssd),
.VPB(vccd),
.VNB(vssd),
`endif
.X(la_data_out_enable),
.A_N(la_oenb_mprj),
.B(mprj_logic1[201:74])
);
/* 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(la_data_out_enable)
);
/* 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_oenb_core),
.A(~la_oenb_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[461]),
.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