/* * GM20B PMU * * Copyright (c) 2014, NVIDIA CORPORATION. All rights reserved. * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope 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. */ #include "gk20a/gk20a.h" #include "acr_gm20b.h" #include "pmu_gm20b.h" /*! * Structure/object which single register write need to be done during PG init * sequence to set PROD values. */ struct pg_init_sequence_list { u32 regaddr; u32 writeval; }; /* PROD settings for ELPG sequencing registers*/ static struct pg_init_sequence_list _pginitseq_gm20b[] = { { 0x0010ab10, 0x8180}, { 0x0010e118, 0x81818080}, { 0x0010e068, 0}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000082}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000082}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000082}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000082}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000082}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000082}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000083}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000080}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000081}, { 0x0010e06c, 0x00000082}, { 0x0010e06c, 0x00000083}, { 0x0010ab14, 0x00000000}, { 0x0010ab18, 0x00000000}, { 0x0010e024, 0x00000000}, { 0x0010e028, 0x00000000}, { 0x0010e11c, 0x00000000}, { 0x0010e120, 0x00000000}, { 0x0010ab1c, 0x00010011}, { 0x0010e020, 0x001C0011}, { 0x0010e124, 0x00030011}, { 0x0010ab20, 0xfedcba98}, { 0x0010ab24, 0x00000000}, { 0x0010e02c, 0xfedcba98}, { 0x0010e030, 0x00000000}, { 0x0010e128, 0xfedcba98}, { 0x0010e12c, 0x00000000}, { 0x0010ab28, 0x71111111}, { 0x0010ab2c, 0x70000000}, { 0x0010e034, 0x71111111}, { 0x0010e038, 0x70000000}, { 0x0010e130, 0x71111111}, { 0x0010e134, 0x70000000}, { 0x0010ab30, 0x00000000}, { 0x0010ab34, 0x00000001}, { 0x00020004, 0x00000000}, { 0x0010e138, 0x00000000}, { 0x0010e040, 0x00000000}, }; int gm20b_pmu_setup_elpg(struct gk20a *g) { int ret = 0; u32 reg_writes; u32 index; gk20a_dbg_fn(""); if (g->elpg_enabled) { reg_writes = ((sizeof(_pginitseq_gm20b) / sizeof((_pginitseq_gm20b)[0]))); /* Initialize registers with production values*/ for (index = 0; index < reg_writes; index++) { gk20a_writel(g, _pginitseq_gm20b[index].regaddr, _pginitseq_gm20b[index].writeval); } } gk20a_dbg_fn("done"); return ret; } void gm20b_init_pmu_ops(struct gpu_ops *gops) { if (gops->privsecurity) gm20b_init_secure_pmu(gops); else gk20a_init_pmu_ops(gops); gops->pmu.pmu_setup_elpg = gm20b_pmu_setup_elpg; }