Commit 5e0adbff authored by Dave Airlie's avatar Dave Airlie Committed by Alex Deucher

amdgpu/dc: drop dml display_mode_support.c (v2)

This code isn't used, and this function is huge, reimport later if
going to be used.
Signed-off-by: default avatarDave Airlie <airlied@redhat.com>
Reviewed-by: default avatarHarry Wentland <harry.wentland@amd.com>
Signed-off-by: default avatarAlex Deucher <alexander.deucher@amd.com>
parent e25cb588
......@@ -10,12 +10,10 @@ CFLAGS_display_rq_dlg_helpers.o := -mhard-float -msse -mpreferred-stack-boundary
CFLAGS_display_watermark.o := -mhard-float -msse -mpreferred-stack-boundary=4
CFLAGS_soc_bounding_box.o := -mhard-float -msse -mpreferred-stack-boundary=4
CFLAGS_dml_common_defs.o := -mhard-float -msse -mpreferred-stack-boundary=4
CFLAGS_display_mode_support.o := -mhard-float -msse -mpreferred-stack-boundary=4
DML = display_mode_lib.o display_rq_dlg_calc.o \
display_rq_dlg_helpers.o display_watermark.o \
soc_bounding_box.o dml_common_defs.o display_mode_support.o
soc_bounding_box.o dml_common_defs.o
AMD_DAL_DML = $(addprefix $(AMDDALPATH)/dc/dml/,$(DML))
......
/*
* Copyright 2017 Advanced Micro Devices, Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*
* Authors: AMD
*
*/
#include "display_mode_support.h"
#include "display_mode_lib.h"
#include "dml_inline_defs.h"
int dml_ms_check(
struct display_mode_lib *mode_lib,
struct _vcs_dpi_display_e2e_pipe_params_st *e2e,
int num_pipes)
{
struct _vcs_dpi_ip_params_st *ip;
struct _vcs_dpi_soc_bounding_box_st *soc;
struct _vcs_dpi_mode_evaluation_st *me;
struct dml_ms_internal_vars *v;
int num_planes, i, j, ij, k, ijk;
ip = &(mode_lib->ip);
soc = &(mode_lib->soc);
me = &(mode_lib->me);
v = &(mode_lib->vars);
num_planes = dml_wm_e2e_to_wm(mode_lib, e2e, num_pipes, v->planes);
//instantiating variables to zero
v->MacroTileBlockWidthC = 0;
v->SwathWidthGranularityC = 0;
v->DCFCLKPerState[5] = 0;
v->DCFCLKPerState[4] = 0;
v->DCFCLKPerState[3] = 0;
v->DCFCLKPerState[2] = 0;
v->DCFCLKPerState[1] = 0;
v->DCFCLKPerState[0] = 0;
if (soc->vmin.dcfclk_mhz > 0) {
v->DCFCLKPerState[5] = soc->vmin.dcfclk_mhz;
v->DCFCLKPerState[4] = soc->vmin.dcfclk_mhz;
v->DCFCLKPerState[3] = soc->vmin.dcfclk_mhz;
v->DCFCLKPerState[2] = soc->vmin.dcfclk_mhz;
v->DCFCLKPerState[1] = soc->vmin.dcfclk_mhz;
v->DCFCLKPerState[0] = soc->vmin.dcfclk_mhz;
}
if (soc->vmid.dcfclk_mhz > 0) {
v->DCFCLKPerState[5] = soc->vmid.dcfclk_mhz;
v->DCFCLKPerState[4] = soc->vmid.dcfclk_mhz;
v->DCFCLKPerState[3] = soc->vmid.dcfclk_mhz;
v->DCFCLKPerState[2] = soc->vmid.dcfclk_mhz;
v->DCFCLKPerState[1] = soc->vmid.dcfclk_mhz;
}
if (soc->vnom.dcfclk_mhz > 0) {
v->DCFCLKPerState[5] = soc->vnom.dcfclk_mhz;
v->DCFCLKPerState[4] = soc->vnom.dcfclk_mhz;
v->DCFCLKPerState[3] = soc->vnom.dcfclk_mhz;
v->DCFCLKPerState[2] = soc->vnom.dcfclk_mhz;
}
if (soc->vmax.dcfclk_mhz > 0) {
v->DCFCLKPerState[5] = soc->vmax.dcfclk_mhz;
v->DCFCLKPerState[4] = soc->vmax.dcfclk_mhz;
v->DCFCLKPerState[3] = soc->vmax.dcfclk_mhz;
}
v->FabricAndDRAMBandwidthPerState[5] = 0;
v->FabricAndDRAMBandwidthPerState[4] = 0;
v->FabricAndDRAMBandwidthPerState[3] = 0;
v->FabricAndDRAMBandwidthPerState[2] = 0;
v->FabricAndDRAMBandwidthPerState[1] = 0;
v->FabricAndDRAMBandwidthPerState[0] = 0;
if (soc->vmin.dram_bw_per_chan_gbps > 0) {
v->FabricAndDRAMBandwidthPerState[5] = soc->vmin.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[4] = soc->vmin.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[3] = soc->vmin.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[2] = soc->vmin.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[1] = soc->vmin.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[0] = soc->vmin.dram_bw_per_chan_gbps;
}
if (soc->vmid.dram_bw_per_chan_gbps > 0) {
v->FabricAndDRAMBandwidthPerState[5] = soc->vmid.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[4] = soc->vmid.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[3] = soc->vmid.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[2] = soc->vmid.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[1] = soc->vmid.dram_bw_per_chan_gbps;
}
if (soc->vnom.dram_bw_per_chan_gbps > 0) {
v->FabricAndDRAMBandwidthPerState[5] = soc->vnom.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[4] = soc->vnom.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[3] = soc->vnom.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[2] = soc->vnom.dram_bw_per_chan_gbps;
}
if (soc->vmax.dram_bw_per_chan_gbps > 0) {
v->FabricAndDRAMBandwidthPerState[5] = soc->vmax.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[4] = soc->vmax.dram_bw_per_chan_gbps;
v->FabricAndDRAMBandwidthPerState[3] = soc->vmax.dram_bw_per_chan_gbps;
}
v->PHYCLKPerState[5] = 0;
v->PHYCLKPerState[4] = 0;
v->PHYCLKPerState[3] = 0;
v->PHYCLKPerState[2] = 0;
v->PHYCLKPerState[1] = 0;
v->PHYCLKPerState[0] = 0;
if (soc->vmin.phyclk_mhz > 0) {
v->PHYCLKPerState[5] = soc->vmin.phyclk_mhz;
v->PHYCLKPerState[4] = soc->vmin.phyclk_mhz;
v->PHYCLKPerState[3] = soc->vmin.phyclk_mhz;
v->PHYCLKPerState[2] = soc->vmin.phyclk_mhz;
v->PHYCLKPerState[1] = soc->vmin.phyclk_mhz;
v->PHYCLKPerState[0] = soc->vmin.phyclk_mhz;
}
if (soc->vmid.phyclk_mhz > 0) {
v->PHYCLKPerState[5] = soc->vmid.phyclk_mhz;
v->PHYCLKPerState[4] = soc->vmid.phyclk_mhz;
v->PHYCLKPerState[3] = soc->vmid.phyclk_mhz;
v->PHYCLKPerState[2] = soc->vmid.phyclk_mhz;
v->PHYCLKPerState[1] = soc->vmid.phyclk_mhz;
}
if (soc->vnom.phyclk_mhz > 0) {
v->PHYCLKPerState[5] = soc->vnom.phyclk_mhz;
v->PHYCLKPerState[4] = soc->vnom.phyclk_mhz;
v->PHYCLKPerState[3] = soc->vnom.phyclk_mhz;
v->PHYCLKPerState[2] = soc->vnom.phyclk_mhz;
}
if (soc->vmax.phyclk_mhz > 0) {
v->PHYCLKPerState[5] = soc->vmax.phyclk_mhz;
v->PHYCLKPerState[4] = soc->vmax.phyclk_mhz;
v->PHYCLKPerState[3] = soc->vmax.phyclk_mhz;
}
v->MaxDispclk[5] = 0;
v->MaxDispclk[4] = 0;
v->MaxDispclk[3] = 0;
v->MaxDispclk[2] = 0;
v->MaxDispclk[1] = 0;
v->MaxDispclk[0] = 0;
if (soc->vmin.dispclk_mhz > 0) {
v->MaxDispclk[5] = soc->vmin.dispclk_mhz;
v->MaxDispclk[4] = soc->vmin.dispclk_mhz;
v->MaxDispclk[3] = soc->vmin.dispclk_mhz;
v->MaxDispclk[2] = soc->vmin.dispclk_mhz;
v->MaxDispclk[1] = soc->vmin.dispclk_mhz;
v->MaxDispclk[0] = soc->vmin.dispclk_mhz;
}
if (soc->vmid.dispclk_mhz > 0) {
v->MaxDispclk[5] = soc->vmid.dispclk_mhz;
v->MaxDispclk[4] = soc->vmid.dispclk_mhz;
v->MaxDispclk[3] = soc->vmid.dispclk_mhz;
v->MaxDispclk[2] = soc->vmid.dispclk_mhz;
v->MaxDispclk[1] = soc->vmid.dispclk_mhz;
}
if (soc->vnom.dispclk_mhz > 0) {
v->MaxDispclk[5] = soc->vnom.dispclk_mhz;
v->MaxDispclk[4] = soc->vnom.dispclk_mhz;
v->MaxDispclk[3] = soc->vnom.dispclk_mhz;
v->MaxDispclk[2] = soc->vnom.dispclk_mhz;
}
if (soc->vmax.dispclk_mhz > 0) {
v->MaxDispclk[5] = soc->vmax.dispclk_mhz;
v->MaxDispclk[4] = soc->vmax.dispclk_mhz;
v->MaxDispclk[3] = soc->vmax.dispclk_mhz;
}
v->MaxDppclk[5] = 0;
v->MaxDppclk[4] = 0;
v->MaxDppclk[3] = 0;
v->MaxDppclk[2] = 0;
v->MaxDppclk[1] = 0;
v->MaxDppclk[0] = 0;
if (soc->vmin.dppclk_mhz > 0) {
v->MaxDppclk[5] = soc->vmin.dppclk_mhz;
v->MaxDppclk[4] = soc->vmin.dppclk_mhz;
v->MaxDppclk[3] = soc->vmin.dppclk_mhz;
v->MaxDppclk[2] = soc->vmin.dppclk_mhz;
v->MaxDppclk[1] = soc->vmin.dppclk_mhz;
v->MaxDppclk[0] = soc->vmin.dppclk_mhz;
}
if (soc->vmid.dppclk_mhz > 0) {
v->MaxDppclk[5] = soc->vmid.dppclk_mhz;
v->MaxDppclk[4] = soc->vmid.dppclk_mhz;
v->MaxDppclk[3] = soc->vmid.dppclk_mhz;
v->MaxDppclk[2] = soc->vmid.dppclk_mhz;
v->MaxDppclk[1] = soc->vmid.dppclk_mhz;
}
if (soc->vnom.dppclk_mhz > 0) {
v->MaxDppclk[5] = soc->vnom.dppclk_mhz;
v->MaxDppclk[4] = soc->vnom.dppclk_mhz;
v->MaxDppclk[3] = soc->vnom.dppclk_mhz;
v->MaxDppclk[2] = soc->vnom.dppclk_mhz;
}
if (soc->vmax.dppclk_mhz > 0) {
v->MaxDppclk[5] = soc->vmax.dppclk_mhz;
v->MaxDppclk[4] = soc->vmax.dppclk_mhz;
v->MaxDppclk[3] = soc->vmax.dppclk_mhz;
}
if (me->voltage_override == dm_vmax) {
v->VoltageOverrideLevel = NumberOfStates - 1;
} else if (me->voltage_override == dm_vnom) {
v->VoltageOverrideLevel = NumberOfStates - 2;
} else if (me->voltage_override == dm_vmid) {
v->VoltageOverrideLevel = NumberOfStates - 3;
} else {
v->VoltageOverrideLevel = 0;
}
// Scale Ratio Support Check
v->ScaleRatioSupport = 1;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_scaler_ratio_depth_st scale_ratio_depth =
e2e[v->planes[k].e2e_index].pipe.scale_ratio_depth;
struct _vcs_dpi_scaler_taps_st scale_taps =
e2e[v->planes[k].e2e_index].pipe.scale_taps;
struct _vcs_dpi_display_pipe_source_params_st src =
e2e[v->planes[k].e2e_index].pipe.src;
if (scale_ratio_depth.hscl_ratio > ip->max_hscl_ratio
|| scale_ratio_depth.vscl_ratio > ip->max_vscl_ratio
|| scale_ratio_depth.hscl_ratio > scale_taps.htaps
|| scale_ratio_depth.vscl_ratio > scale_taps.vtaps
|| (src.source_format != dm_444_64 && src.source_format != dm_444_32
&& src.source_format != dm_444_16
&& ((scale_ratio_depth.hscl_ratio / 2
> scale_taps.htaps_c)
|| (scale_ratio_depth.vscl_ratio / 2
> scale_taps.vtaps_c))))
{
v->ScaleRatioSupport = 0;
}
}
// Source Format, Pixel Format and Scan Support Check
v->SourceFormatPixelAndScanSupport = 1;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_source_params_st src =
e2e[v->planes[k].e2e_index].pipe.src;
if ((src.sw_mode == dm_sw_linear && src.source_scan != dm_horz)
|| ((src.sw_mode == dm_sw_4kb_d || src.sw_mode == dm_sw_4kb_d_x
|| src.sw_mode == dm_sw_64kb_d
|| src.sw_mode == dm_sw_64kb_d_t
|| src.sw_mode == dm_sw_64kb_d_x
|| src.sw_mode == dm_sw_var_d
|| src.sw_mode == dm_sw_var_d_x)
&& (src.source_format != dm_444_64))) {
v->SourceFormatPixelAndScanSupport = 0;
}
}
// Bandwidth Support Check
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_source_params_st src =
e2e[v->planes[k].e2e_index].pipe.src;
if (src.source_scan == dm_horz) {
v->SwathWidthYSingleDPP[k] = src.viewport_width;
} else {
v->SwathWidthYSingleDPP[k] = src.viewport_height;
}
if (src.source_format == dm_444_64) {
v->BytePerPixelInDETY[k] = 8;
v->BytePerPixelInDETC[k] = 0;
} else if (src.source_format == dm_444_32) {
v->BytePerPixelInDETY[k] = 4;
v->BytePerPixelInDETC[k] = 0;
} else if (src.source_format == dm_444_16) {
v->BytePerPixelInDETY[k] = 2;
v->BytePerPixelInDETC[k] = 0;
} else if (src.source_format == dm_420_8) {
v->BytePerPixelInDETY[k] = 1;
v->BytePerPixelInDETC[k] = 2;
} else {
v->BytePerPixelInDETY[k] = 4.00 / 3.00;
v->BytePerPixelInDETC[k] = 8.00 / 3.00;
}
}
v->TotalReadBandwidthConsumedGBytePerSecond = 0;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_source_params_st src =
e2e[v->planes[k].e2e_index].pipe.src;
struct _vcs_dpi_display_pipe_dest_params_st dest =
e2e[v->planes[k].e2e_index].pipe.dest;
struct _vcs_dpi_scaler_ratio_depth_st scale_ratio_depth =
e2e[v->planes[k].e2e_index].pipe.scale_ratio_depth;
v->ReadBandwidth[k] =
v->SwathWidthYSingleDPP[k]
* (dml_ceil_ex(v->BytePerPixelInDETY[k], 1)
* scale_ratio_depth.vscl_ratio
+ (dml_ceil_ex(
v->BytePerPixelInDETC[k],
2) / 2)
* (scale_ratio_depth.vscl_ratio
/ 2))
/ (dest.htotal / dest.pixel_rate_mhz);
if (src.dcc == 1) {
v->ReadBandwidth[k] = v->ReadBandwidth[k] * (1 + 1 / 256);
}
if (ip->pte_enable == 1 && src.source_scan != dm_horz
&& (src.sw_mode == dm_sw_4kb_s || src.sw_mode == dm_sw_4kb_s_x
|| src.sw_mode == dm_sw_4kb_d
|| src.sw_mode == dm_sw_4kb_d_x)) {
v->ReadBandwidth[k] = v->ReadBandwidth[k] * (1 + 1 / 64);
} else if (ip->pte_enable == 1 && src.source_scan == dm_horz
&& (src.source_format == dm_444_64 || src.source_format == dm_444_32)
&& (src.sw_mode == dm_sw_64kb_s || src.sw_mode == dm_sw_64kb_s_t
|| src.sw_mode == dm_sw_64kb_s_x
|| src.sw_mode == dm_sw_64kb_d
|| src.sw_mode == dm_sw_64kb_d_t
|| src.sw_mode == dm_sw_64kb_d_x)) {
v->ReadBandwidth[k] = v->ReadBandwidth[k] * (1 + 1 / 256);
} else if (ip->pte_enable == 1) {
v->ReadBandwidth[k] = v->ReadBandwidth[k] * (1 + 1 / 512);
}
v->TotalReadBandwidthConsumedGBytePerSecond =
v->TotalReadBandwidthConsumedGBytePerSecond
+ v->ReadBandwidth[k] / 1000;
}
v->TotalWriteBandwidthConsumedGBytePerSecond = 0;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_dest_params_st dest =
e2e[v->planes[k].e2e_index].pipe.dest;
struct _vcs_dpi_display_output_params_st dout = e2e[v->planes[k].e2e_index].dout;
if (dout.output_type == dm_wb && dout.output_format == dm_444) {
v->WriteBandwidth[k] = dest.recout_width
/ (dest.htotal / dest.pixel_rate_mhz) * 4;
} else if (dout.output_type == dm_wb) {
v->WriteBandwidth[k] = dest.recout_width
/ (dest.htotal / dest.pixel_rate_mhz) * 1.5;
} else {
v->WriteBandwidth[k] = 0;
}
v->TotalWriteBandwidthConsumedGBytePerSecond =
v->TotalWriteBandwidthConsumedGBytePerSecond
+ v->WriteBandwidth[k] / 1000;
}
v->TotalBandwidthConsumedGBytePerSecond = v->TotalReadBandwidthConsumedGBytePerSecond
+ v->TotalWriteBandwidthConsumedGBytePerSecond;
v->DCCEnabledInAnyPlane = 0;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_source_params_st src =
e2e[v->planes[k].e2e_index].pipe.src;
if (src.dcc == 1) {
v->DCCEnabledInAnyPlane = 1;
}
}
for (i = 0; i < NumberOfStatesPlusTwo; i++) {
v->ReturnBWToDCNPerState = dml_min(
soc->return_bus_width_bytes * v->DCFCLKPerState[i],
v->FabricAndDRAMBandwidthPerState[i] * 1000
* soc->ideal_dram_bw_after_urgent_percent / 100);
v->ReturnBWPerState[i] = v->ReturnBWToDCNPerState;
if (v->DCCEnabledInAnyPlane == 1
&& v->ReturnBWToDCNPerState
> (v->DCFCLKPerState[i]
* soc->return_bus_width_bytes / 4)) {
v->ReturnBWPerState[i] =
dml_min(
v->ReturnBWPerState[i],
v->ReturnBWToDCNPerState * 4
* (1
- soc->urgent_latency_us
/ ((ip->rob_buffer_size_kbytes
- ip->pixel_chunk_size_kbytes)
* 1024
/ (v->ReturnBWToDCNPerState
- v->DCFCLKPerState[i]
* soc->return_bus_width_bytes
/ 4)
+ soc->urgent_latency_us)));
}
v->CriticalPoint = 2 * soc->return_bus_width_bytes * v->DCFCLKPerState[i]
* soc->urgent_latency_us
/ (v->ReturnBWToDCNPerState * soc->urgent_latency_us
+ (ip->rob_buffer_size_kbytes
- ip->pixel_chunk_size_kbytes)
* 1024);
if (v->DCCEnabledInAnyPlane == 1 && v->CriticalPoint > 1 && v->CriticalPoint < 4) {
v->ReturnBWPerState[i] =
dml_min(
v->ReturnBWPerState[i],
4 * v->ReturnBWToDCNPerState
* (ip->rob_buffer_size_kbytes
- ip->pixel_chunk_size_kbytes)
* 1024
* soc->return_bus_width_bytes
* v->DCFCLKPerState[i]
* soc->urgent_latency_us
/ dml_pow(
(v->ReturnBWToDCNPerState
* soc->urgent_latency_us
+ (ip->rob_buffer_size_kbytes
- ip->pixel_chunk_size_kbytes)
* 1024),
2));
}
v->ReturnBWToDCNPerState = dml_min(
soc->return_bus_width_bytes * v->DCFCLKPerState[i],
v->FabricAndDRAMBandwidthPerState[i] * 1000);
if (v->DCCEnabledInAnyPlane == 1
&& v->ReturnBWToDCNPerState
> (v->DCFCLKPerState[i]
* soc->return_bus_width_bytes / 4)) {
v->ReturnBWPerState[i] =
dml_min(
v->ReturnBWPerState[i],
v->ReturnBWToDCNPerState * 4
* (1
- soc->urgent_latency_us
/ ((ip->rob_buffer_size_kbytes
- ip->pixel_chunk_size_kbytes)
* 1024
/ (v->ReturnBWToDCNPerState
- v->DCFCLKPerState[i]
* soc->return_bus_width_bytes
/ 4)
+ soc->urgent_latency_us)));
}
v->CriticalPoint = 2 * soc->return_bus_width_bytes * v->DCFCLKPerState[i]
* soc->urgent_latency_us
/ (v->ReturnBWToDCNPerState * soc->urgent_latency_us
+ (ip->rob_buffer_size_kbytes
- ip->pixel_chunk_size_kbytes)
* 1024);
if (v->DCCEnabledInAnyPlane == 1 && v->CriticalPoint > 1 && v->CriticalPoint < 4) {
v->ReturnBWPerState[i] =
dml_min(
v->ReturnBWPerState[i],
4 * v->ReturnBWToDCNPerState
* (ip->rob_buffer_size_kbytes
- ip->pixel_chunk_size_kbytes)
* 1024
* soc->return_bus_width_bytes
* v->DCFCLKPerState[i]
* soc->urgent_latency_us
/ dml_pow(
(v->ReturnBWToDCNPerState
* soc->urgent_latency_us
+ (ip->rob_buffer_size_kbytes
- ip->pixel_chunk_size_kbytes)
* 1024),
2));
}
}
for (i = 0; i < NumberOfStatesPlusTwo; i++) {
if ((v->TotalReadBandwidthConsumedGBytePerSecond * 1000 <= v->ReturnBWPerState[i])
&& (v->TotalBandwidthConsumedGBytePerSecond * 1000
<= v->FabricAndDRAMBandwidthPerState[i] * 1000
* soc->ideal_dram_bw_after_urgent_percent
/ 100)) {
v->BandwidthSupport[i] = 1;
} else {
v->BandwidthSupport[i] = 0;
}
}
// Writeback Latency support check
v->WritebackLatencySupport = 1;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_dest_params_st dest =
e2e[v->planes[k].e2e_index].pipe.dest;
struct _vcs_dpi_display_output_params_st dout = e2e[v->planes[k].e2e_index].dout;
if (dout.output_type == dm_wb && dout.output_format == dm_444
&& (dest.recout_width / (dest.htotal / dest.pixel_rate_mhz) * 4)
> ((ip->writeback_luma_buffer_size_kbytes
+ ip->writeback_chroma_buffer_size_kbytes)
* 1024 / soc->writeback_latency_us)) {
v->WritebackLatencySupport = 0;
} else if (dout.output_type == dm_wb
&& (dest.recout_width / (dest.htotal / dest.pixel_rate_mhz))
> (dml_min(
ip->writeback_luma_buffer_size_kbytes,
2
* ip->writeback_chroma_buffer_size_kbytes)
* 1024 / soc->writeback_latency_us)) {
v->WritebackLatencySupport = 0;
}
}
// Re-ordering Buffer Support Check
for (i = 0; i < NumberOfStatesPlusTwo; i++) {
v->UrgentRoundTripAndOutOfOrderLatencyPerState[i] =
(soc->round_trip_ping_latency_dcfclk_cycles + 32)
/ v->DCFCLKPerState[i]
+ soc->urgent_out_of_order_return_per_channel_bytes
* soc->num_chans
/ v->ReturnBWPerState[i];
if ((ip->rob_buffer_size_kbytes - ip->pixel_chunk_size_kbytes) * 1024
/ v->ReturnBWPerState[i]
> v->UrgentRoundTripAndOutOfOrderLatencyPerState[i]) {
v->ROBSupport[i] = 1;
} else {
v->ROBSupport[i] = 0;
}
}
// Display IO Support Check
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_dest_params_st dest =
e2e[v->planes[k].e2e_index].pipe.dest;
struct _vcs_dpi_display_output_params_st dout = e2e[v->planes[k].e2e_index].dout;
if (dout.output_format == dm_420) {
v->RequiredOutputBW = dest.pixel_rate_mhz * 3 / 2;
} else {
v->RequiredOutputBW = dest.pixel_rate_mhz * 3;
}
if (dout.output_type == dm_hdmi) {
v->RequiredPHYCLK[k] = v->RequiredOutputBW / 3;
} else if (dout.output_type == dm_dp) {
v->RequiredPHYCLK[k] = v->RequiredOutputBW / 4;
} else {
v->RequiredPHYCLK[k] = 0;
}
}
for (i = 0; i < NumberOfStatesPlusTwo; i++) {
v->DIOSupport[i] = 1;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_output_params_st dout =
e2e[v->planes[k].e2e_index].dout;
if ((v->RequiredPHYCLK[k] > v->PHYCLKPerState[i])
|| (dout.output_type == dm_hdmi
&& v->RequiredPHYCLK[k] > 600)) {
v->DIOSupport[i] = 0;
}
}
}
// Total Available Writeback Support Check
v->TotalNumberOfActiveWriteback = 0;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_output_params_st dout = e2e[v->planes[k].e2e_index].dout;
if (dout.output_type == dm_wb) {
v->TotalNumberOfActiveWriteback = v->TotalNumberOfActiveWriteback + 1;
}
}
if (v->TotalNumberOfActiveWriteback <= ip->max_num_wb) {
v->TotalAvailableWritebackSupport = 1;
} else {
v->TotalAvailableWritebackSupport = 0;
}
// Maximum DISPCLK/DPPCLK Support check
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_dest_params_st dest =
e2e[v->planes[k].e2e_index].pipe.dest;
struct _vcs_dpi_scaler_ratio_depth_st scale_ratio_depth =
e2e[v->planes[k].e2e_index].pipe.scale_ratio_depth;
struct _vcs_dpi_scaler_taps_st scale_taps =
e2e[v->planes[k].e2e_index].pipe.scale_taps;
if (scale_ratio_depth.hscl_ratio > 1) {
v->PSCL_FACTOR[k] = dml_min(
ip->max_dchub_pscl_bw_pix_per_clk,
ip->max_pscl_lb_bw_pix_per_clk
* scale_ratio_depth.hscl_ratio
/ dml_ceil_ex(scale_taps.htaps / 6, 1));
} else {
v->PSCL_FACTOR[k] = dml_min(
ip->max_dchub_pscl_bw_pix_per_clk,
ip->max_pscl_lb_bw_pix_per_clk);
}
if (v->BytePerPixelInDETC[k] == 0) {
v->PSCL_FACTOR_CHROMA[k] = 0;
v->MinDPPCLKUsingSingleDPP[k] =
dest.pixel_rate_mhz
* dml_max(
scale_taps.vtaps / 6
* dml_min(
1,
scale_ratio_depth.hscl_ratio),
dml_max(
scale_ratio_depth.hscl_ratio
* scale_ratio_depth.vscl_ratio
/ v->PSCL_FACTOR[k],
1));
} else {
if (scale_ratio_depth.hscl_ratio / 2 > 1) {
v->PSCL_FACTOR_CHROMA[k] = dml_min(
ip->max_dchub_pscl_bw_pix_per_clk,
ip->max_pscl_lb_bw_pix_per_clk
* scale_ratio_depth.hscl_ratio / 2
/ dml_ceil_ex(
scale_taps.htaps_c
/ 6,
1));
} else {
v->PSCL_FACTOR_CHROMA[k] = dml_min(
ip->max_dchub_pscl_bw_pix_per_clk,
ip->max_pscl_lb_bw_pix_per_clk);
}
v->MinDPPCLKUsingSingleDPP[k] =
dest.pixel_rate_mhz
* dml_max(
dml_max(
scale_taps.vtaps
/ 6
* dml_min(
1,
scale_ratio_depth.hscl_ratio),
scale_ratio_depth.hscl_ratio
* scale_ratio_depth.vscl_ratio
/ v->PSCL_FACTOR[k]),
dml_max(
dml_max(
scale_taps.vtaps_c
/ 6
* dml_min(
1,
scale_ratio_depth.hscl_ratio
/ 2),
scale_ratio_depth.hscl_ratio
* scale_ratio_depth.vscl_ratio
/ 4
/ v->PSCL_FACTOR_CHROMA[k]),
1));
}
}
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_source_params_st src =
e2e[v->planes[k].e2e_index].pipe.src;
struct _vcs_dpi_scaler_ratio_depth_st scale_ratio_depth =
e2e[v->planes[k].e2e_index].pipe.scale_ratio_depth;
struct _vcs_dpi_scaler_taps_st scale_taps =
e2e[v->planes[k].e2e_index].pipe.scale_taps;
if (src.source_format == dm_444_64 || src.source_format == dm_444_32
|| src.source_format == dm_444_16) {
if (src.sw_mode == dm_sw_linear) {
v->Read256BlockHeightY[k] = 1;
} else if (src.source_format == dm_444_64) {
v->Read256BlockHeightY[k] = 4;
} else {
v->Read256BlockHeightY[k] = 8;
}
v->Read256BlockWidthY[k] = 256 / dml_ceil_ex(v->BytePerPixelInDETY[k], 1)
/ v->Read256BlockHeightY[k];
v->Read256BlockHeightC[k] = 0;
v->Read256BlockWidthC[k] = 0;
} else {
if (src.sw_mode == dm_sw_linear) {
v->Read256BlockHeightY[k] = 1;
v->Read256BlockHeightC[k] = 1;
} else if (src.source_format == dm_420_8) {
v->Read256BlockHeightY[k] = 16;
v->Read256BlockHeightC[k] = 8;
} else {
v->Read256BlockHeightY[k] = 8;
v->Read256BlockHeightC[k] = 8;
}
v->Read256BlockWidthY[k] = 256 / dml_ceil_ex(v->BytePerPixelInDETY[k], 1)
/ v->Read256BlockHeightY[k];
v->Read256BlockWidthC[k] = 256 / dml_ceil_ex(v->BytePerPixelInDETC[k], 2)
/ v->Read256BlockHeightC[k];
}
if (src.source_scan == dm_horz) {
v->MaxSwathHeightY[k] = v->Read256BlockHeightY[k];
v->MaxSwathHeightC[k] = v->Read256BlockHeightC[k];
} else {
v->MaxSwathHeightY[k] = v->Read256BlockWidthY[k];
v->MaxSwathHeightC[k] = v->Read256BlockWidthC[k];
}
if (src.source_format == dm_444_64 || src.source_format == dm_444_32
|| src.source_format == dm_444_16) {
if (src.sw_mode == dm_sw_linear
|| (src.source_format == dm_444_64
&& (src.sw_mode == dm_sw_4kb_s
|| src.sw_mode
== dm_sw_4kb_s_x
|| src.sw_mode
== dm_sw_64kb_s
|| src.sw_mode
== dm_sw_64kb_s_t
|| src.sw_mode
== dm_sw_64kb_s_x
|| src.sw_mode
== dm_sw_var_s
|| src.sw_mode
== dm_sw_var_s_x)
&& src.source_scan == dm_horz)) {
v->MinSwathHeightY[k] = v->MaxSwathHeightY[k];
} else {
v->MinSwathHeightY[k] = v->MaxSwathHeightY[k] / 2;
}
v->MinSwathHeightC[k] = v->MaxSwathHeightC[k];
} else {
if (src.sw_mode == dm_sw_linear) {
v->MinSwathHeightY[k] = v->MaxSwathHeightY[k];
v->MinSwathHeightC[k] = v->MaxSwathHeightC[k];
} else if (src.source_format == dm_420_8 && src.source_scan == dm_horz) {
v->MinSwathHeightY[k] = v->MaxSwathHeightY[k] / 2;
if (ip->bug_forcing_LC_req_same_size_fixed == 1) {
v->MinSwathHeightC[k] = v->MaxSwathHeightC[k];
} else {
v->MinSwathHeightC[k] = v->MaxSwathHeightC[k] / 2;
}
} else if (src.source_format == dm_420_10 && src.source_scan == dm_horz) {
v->MinSwathHeightC[k] = v->MaxSwathHeightC[k] / 2;
if (ip->bug_forcing_LC_req_same_size_fixed == 1) {
v->MinSwathHeightY[k] = v->MaxSwathHeightY[k];
} else {
v->MinSwathHeightY[k] = v->MaxSwathHeightY[k] / 2;
}
} else {
v->MinSwathHeightY[k] = v->MaxSwathHeightY[k];
v->MinSwathHeightC[k] = v->MaxSwathHeightC[k];
}
}
if (src.sw_mode == dm_sw_linear) {
v->MaximumSwathWidth = 8192;
} else {
v->MaximumSwathWidth = 5120;
}
v->NumberOfDPPRequiredForDETSize =
dml_ceil_ex(
v->SwathWidthYSingleDPP[k]
/ dml_min(
v->MaximumSwathWidth,
ip->det_buffer_size_kbytes
* 1024
/ 2
/ (v->BytePerPixelInDETY[k]
* v->MinSwathHeightY[k]
+ v->BytePerPixelInDETC[k]
/ 2
* v->MinSwathHeightC[k])),
1);
if (v->BytePerPixelInDETC[k] == 0) {
v->NumberOfDPPRequiredForLBSize =
dml_ceil_ex(
(scale_taps.vtaps
+ dml_max(
dml_ceil_ex(
scale_ratio_depth.vscl_ratio,
1)
- 2,
0))
* v->SwathWidthYSingleDPP[k]
/ dml_max(
scale_ratio_depth.hscl_ratio,
1)
* scale_ratio_depth.lb_depth
/ ip->line_buffer_size_bits,
1);
} else {
v->NumberOfDPPRequiredForLBSize =
dml_max(
dml_ceil_ex(
(scale_taps.vtaps
+ dml_max(
dml_ceil_ex(
scale_ratio_depth.vscl_ratio,
1)
- 2,
0))
* v->SwathWidthYSingleDPP[k]
/ dml_max(
scale_ratio_depth.hscl_ratio,
1)
* scale_ratio_depth.lb_depth
/ ip->line_buffer_size_bits,
1),
dml_ceil_ex(
(scale_taps.vtaps_c
+ dml_max(
dml_ceil_ex(
scale_ratio_depth.vscl_ratio
/ 2,
1)
- 2,
0))
* v->SwathWidthYSingleDPP[k]
/ 2
/ dml_max(
scale_ratio_depth.hscl_ratio
/ 2,
1)
* scale_ratio_depth.lb_depth
/ ip->line_buffer_size_bits,
1));
}
v->NumberOfDPPRequiredForDETAndLBSize[k] = dml_max(
v->NumberOfDPPRequiredForDETSize,
v->NumberOfDPPRequiredForLBSize);
}
for (i = 0; i < NumberOfStatesPlusTwo; i++) {
for (j = 0; j < 2; j++) {
v->TotalNumberOfActiveDPP[j * NumberOfStatesPlusTwo + i] = 0;
v->RequiredDISPCLK[j * NumberOfStatesPlusTwo + i] = 0;
v->DISPCLK_DPPCLK_Support[j * NumberOfStatesPlusTwo + i] = 1;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_dest_params_st dest =
e2e[v->planes[k].e2e_index].pipe.dest;
ijk = k * 2 * NumberOfStatesPlusTwo + j * NumberOfStatesPlusTwo + i;
v->MinDispclkUsingSingleDPP = dml_max(
dest.pixel_rate_mhz,
v->MinDPPCLKUsingSingleDPP[k] * (j + 1))
* (1 + soc->downspread_percent / 100);
v->MinDispclkUsingDualDPP = dml_max(
dest.pixel_rate_mhz,
v->MinDPPCLKUsingSingleDPP[k] / 2 * (j + 1))
* (1 + soc->downspread_percent / 100);
if (i < NumberOfStates) {
v->MinDispclkUsingSingleDPP =
v->MinDispclkUsingSingleDPP
* (1
+ ip->dispclk_ramp_margin_percent
/ 100);
v->MinDispclkUsingDualDPP =
v->MinDispclkUsingDualDPP
* (1
+ ip->dispclk_ramp_margin_percent
/ 100);
}
if (v->MinDispclkUsingSingleDPP
<= dml_min(
v->MaxDispclk[i],
(j + 1) * v->MaxDppclk[i])
&& v->NumberOfDPPRequiredForDETAndLBSize[k] <= 1) {
v->NoOfDPP[ijk] = 1;
v->RequiredDISPCLK[j * NumberOfStatesPlusTwo + i] = dml_max(
v->RequiredDISPCLK[j * NumberOfStatesPlusTwo
+ i],
v->MinDispclkUsingSingleDPP);
} else if (v->MinDispclkUsingDualDPP
<= dml_min(
v->MaxDispclk[i],
(j + 1) * v->MaxDppclk[i])) {
v->NoOfDPP[ijk] = 2;
v->RequiredDISPCLK[j * NumberOfStatesPlusTwo + i] = dml_max(
v->RequiredDISPCLK[j * NumberOfStatesPlusTwo
+ i],
v->MinDispclkUsingDualDPP);
} else {
v->NoOfDPP[ijk] = 2;
v->RequiredDISPCLK[j * NumberOfStatesPlusTwo + i] = dml_max(
v->RequiredDISPCLK[j * NumberOfStatesPlusTwo
+ i],
v->MinDispclkUsingDualDPP);
v->DISPCLK_DPPCLK_Support[j * NumberOfStatesPlusTwo + i] =
0;
}
v->TotalNumberOfActiveDPP[j * NumberOfStatesPlusTwo + i] =
v->TotalNumberOfActiveDPP[j * NumberOfStatesPlusTwo
+ i] + v->NoOfDPP[ijk];
}
if (v->TotalNumberOfActiveDPP[j * NumberOfStatesPlusTwo + i]
> ip->max_num_dpp) {
v->TotalNumberOfActiveDPP[j * NumberOfStatesPlusTwo + i] = 0;
v->RequiredDISPCLK[j * NumberOfStatesPlusTwo + i] = 0;
v->DISPCLK_DPPCLK_Support[j * NumberOfStatesPlusTwo + i] = 1;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_dest_params_st dest =
e2e[v->planes[k].e2e_index].pipe.dest;
ijk = k * 2 * NumberOfStatesPlusTwo
+ j * NumberOfStatesPlusTwo + i;
v->MinDispclkUsingSingleDPP = dml_max(
dest.pixel_rate_mhz,
v->MinDPPCLKUsingSingleDPP[k] * (j + 1))
* (1 + soc->downspread_percent / 100);
v->MinDispclkUsingDualDPP = dml_max(
dest.pixel_rate_mhz,
v->MinDPPCLKUsingSingleDPP[k] / 2 * (j + 1))
* (1 + soc->downspread_percent / 100);
if (i < NumberOfStates) {
v->MinDispclkUsingSingleDPP =
v->MinDispclkUsingSingleDPP
* (1
+ ip->dispclk_ramp_margin_percent
/ 100);
v->MinDispclkUsingDualDPP =
v->MinDispclkUsingDualDPP
* (1
+ ip->dispclk_ramp_margin_percent
/ 100);
}
if (v->NumberOfDPPRequiredForDETAndLBSize[k] <= 1) {
v->NoOfDPP[ijk] = 1;
v->RequiredDISPCLK[j * NumberOfStatesPlusTwo + i] =
dml_max(
v->RequiredDISPCLK[j
* NumberOfStatesPlusTwo
+ i],
v->MinDispclkUsingSingleDPP);
if (v->MinDispclkUsingSingleDPP
> dml_min(
v->MaxDispclk[i],
(j + 1)
* v->MaxDppclk[i])) {
v->DISPCLK_DPPCLK_Support[j
* NumberOfStatesPlusTwo + i] =
0;
}
} else {
v->NoOfDPP[ijk] = 2;
v->RequiredDISPCLK[j * NumberOfStatesPlusTwo + i] =
dml_max(
v->RequiredDISPCLK[j
* NumberOfStatesPlusTwo
+ i],
v->MinDispclkUsingDualDPP);
if (v->MinDispclkUsingDualDPP
> dml_min(
v->MaxDispclk[i],
(j + 1)
* v->MaxDppclk[i])) {
v->DISPCLK_DPPCLK_Support[j
* NumberOfStatesPlusTwo + i] =
0;
}
}
v->TotalNumberOfActiveDPP[j * NumberOfStatesPlusTwo + i] =
v->TotalNumberOfActiveDPP[j
* NumberOfStatesPlusTwo + i]
+ v->NoOfDPP[ijk];
}
}
}
}
// Viewport Size Check
v->ViewportSizeSupport = 1;
for (k = 0; k < num_planes; k++) {
if (v->NumberOfDPPRequiredForDETAndLBSize[k] > 2) {
v->ViewportSizeSupport = 0;
}
}
// Total Available Pipes Support Check
for (i = 0; i < NumberOfStatesPlusTwo; i++) {
for (j = 0; j < 2; j++) {
if (v->TotalNumberOfActiveDPP[j * NumberOfStatesPlusTwo + i]
<= ip->max_num_dpp) {
v->TotalAvailablePipesSupport[j * NumberOfStatesPlusTwo + i] = 1;
} else {
v->TotalAvailablePipesSupport[j * NumberOfStatesPlusTwo + i] = 0;
}
}
}
// Urgent Latency Support Check
for (j = 0; j < 2; j++) {
for (i = 0; i < NumberOfStatesPlusTwo; i++) {
ij = j * NumberOfStatesPlusTwo + i;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_source_params_st src =
e2e[v->planes[k].e2e_index].pipe.src;
struct _vcs_dpi_display_pipe_dest_params_st dest =
e2e[v->planes[k].e2e_index].pipe.dest;
struct _vcs_dpi_scaler_ratio_depth_st scale_ratio_depth =
e2e[v->planes[k].e2e_index].pipe.scale_ratio_depth;
struct _vcs_dpi_scaler_taps_st scale_taps =
e2e[v->planes[k].e2e_index].pipe.scale_taps;
ijk = k * 2 * NumberOfStatesPlusTwo + j * NumberOfStatesPlusTwo + i;
v->SwathWidthYPerState[ijk] = v->SwathWidthYSingleDPP[k]
/ v->NoOfDPP[ijk];
v->SwathWidthGranularityY = 256
/ dml_ceil_ex(v->BytePerPixelInDETY[k], 1)
/ v->MaxSwathHeightY[k];
v->RoundedUpMaxSwathSizeBytesY = (dml_ceil_ex(
v->SwathWidthYPerState[ijk] - 1,
v->SwathWidthGranularityY)
+ v->SwathWidthGranularityY)
* v->BytePerPixelInDETY[k] * v->MaxSwathHeightY[k];
if (src.source_format == dm_420_10) {
v->RoundedUpMaxSwathSizeBytesY = dml_ceil_ex(
v->RoundedUpMaxSwathSizeBytesY,
256) + 256;
}
if (v->MaxSwathHeightC[k] > 0) {
v->SwathWidthGranularityC = 256
/ dml_ceil_ex(v->BytePerPixelInDETC[k], 2)
/ v->MaxSwathHeightC[k];
}
v->RoundedUpMaxSwathSizeBytesC = (dml_ceil_ex(
v->SwathWidthYPerState[ijk] / 2 - 1,
v->SwathWidthGranularityC)
+ v->SwathWidthGranularityC)
* v->BytePerPixelInDETC[k] * v->MaxSwathHeightC[k];
if (src.source_format == dm_420_10) {
v->RoundedUpMaxSwathSizeBytesC = dml_ceil_ex(
v->RoundedUpMaxSwathSizeBytesC,
256) + 256;
}
if (v->RoundedUpMaxSwathSizeBytesY + v->RoundedUpMaxSwathSizeBytesC
<= ip->det_buffer_size_kbytes * 1024 / 2) {
v->SwathHeightYPerState[ijk] = v->MaxSwathHeightY[k];
v->SwathHeightCPerState[ijk] = v->MaxSwathHeightC[k];
} else {
v->SwathHeightYPerState[ijk] = v->MinSwathHeightY[k];
v->SwathHeightCPerState[ijk] = v->MinSwathHeightC[k];
}
if (v->BytePerPixelInDETC[k] == 0) {
v->LinesInDETLuma = ip->det_buffer_size_kbytes * 1024
/ v->BytePerPixelInDETY[k]
/ v->SwathWidthYPerState[ijk];
v->LinesInDETChroma = 0;
} else if (v->SwathHeightYPerState[ijk]
<= v->SwathHeightCPerState[ijk]) {
v->LinesInDETLuma = ip->det_buffer_size_kbytes * 1024 / 2
/ v->BytePerPixelInDETY[k]
/ v->SwathWidthYPerState[ijk];
v->LinesInDETChroma = ip->det_buffer_size_kbytes * 1024 / 2
/ v->BytePerPixelInDETC[k]
/ (v->SwathWidthYPerState[ijk] / 2);
} else {
v->LinesInDETLuma = ip->det_buffer_size_kbytes * 1024 * 2
/ 3 / v->BytePerPixelInDETY[k]
/ v->SwathWidthYPerState[ijk];
v->LinesInDETChroma = ip->det_buffer_size_kbytes * 1024 / 3
/ v->BytePerPixelInDETY[k]
/ (v->SwathWidthYPerState[ijk] / 2);
}
v->EffectiveLBLatencyHidingSourceLinesLuma =
dml_min(
ip->max_line_buffer_lines,
dml_floor_ex(
ip->line_buffer_size_bits
/ scale_ratio_depth.lb_depth
/ (v->SwathWidthYPerState[ijk]
/ dml_max(
scale_ratio_depth.hscl_ratio,
1)),
1))
- (scale_taps.vtaps - 1);
v->EffectiveLBLatencyHidingSourceLinesChroma =
dml_min(
ip->max_line_buffer_lines,
dml_floor_ex(
ip->line_buffer_size_bits
/ scale_ratio_depth.lb_depth
/ (v->SwathWidthYPerState[ijk]
/ 2
/ dml_max(
scale_ratio_depth.hscl_ratio
/ 2,
1)),
1))
- (scale_taps.vtaps_c - 1);
v->EffectiveDETLBLinesLuma =
dml_floor_ex(
v->LinesInDETLuma
+ dml_min(
v->LinesInDETLuma
* v->RequiredDISPCLK[ij]
* v->BytePerPixelInDETY[k]
* v->PSCL_FACTOR[k]
/ v->ReturnBWPerState[i],
v->EffectiveLBLatencyHidingSourceLinesLuma),
v->SwathHeightYPerState[ijk]);
v->EffectiveDETLBLinesChroma =
dml_floor_ex(
v->LinesInDETChroma
+ dml_min(
v->LinesInDETChroma
* v->RequiredDISPCLK[ij]
* v->BytePerPixelInDETC[k]
* v->PSCL_FACTOR_CHROMA[k]
/ v->ReturnBWPerState[i],
v->EffectiveLBLatencyHidingSourceLinesChroma),
v->SwathHeightCPerState[ijk]);
if (v->BytePerPixelInDETC[k] == 0) {
v->UrgentLatencySupportUsPerState[ijk] =
v->EffectiveDETLBLinesLuma
* (dest.htotal
/ dest.pixel_rate_mhz)
/ scale_ratio_depth.vscl_ratio
- v->EffectiveDETLBLinesLuma
* v->SwathWidthYPerState[ijk]
* dml_ceil_ex(
v->BytePerPixelInDETY[k],
1)
/ (v->ReturnBWPerState[i]
/ v->NoOfDPP[ijk]);
} else {
v->UrgentLatencySupportUsPerState[ijk] =
dml_min(
v->EffectiveDETLBLinesLuma
* (dest.htotal
/ dest.pixel_rate_mhz)
/ scale_ratio_depth.vscl_ratio
- v->EffectiveDETLBLinesLuma
* v->SwathWidthYPerState[ijk]
* dml_ceil_ex(
v->BytePerPixelInDETY[k],
1)
/ (v->ReturnBWPerState[i]
/ v->NoOfDPP[ijk]),
v->EffectiveDETLBLinesChroma
* (dest.htotal
/ dest.pixel_rate_mhz)
/ (scale_ratio_depth.vscl_ratio
/ 2)
- v->EffectiveDETLBLinesChroma
* v->SwathWidthYPerState[ijk]
/ 2
* dml_ceil_ex(
v->BytePerPixelInDETC[k],
2)
/ (v->ReturnBWPerState[i]
/ v->NoOfDPP[ijk]));
}
}
}
}
for (i = 0; i < NumberOfStatesPlusTwo; i++) {
for (j = 0; j < 2; j++) {
ij = j * NumberOfStatesPlusTwo + i;
v->UrgentLatencySupport[ij] = 1;
for (k = 0; k < num_planes; k++) {
ijk = k * 2 * NumberOfStatesPlusTwo + j * NumberOfStatesPlusTwo + i;
if (v->UrgentLatencySupportUsPerState[ijk]
< soc->urgent_latency_us / 1) {
v->UrgentLatencySupport[ij] = 0;
}
}
}
}
// Prefetch Check
for (i = 0; i < NumberOfStatesPlusTwo; i++) {
for (j = 0; j < 2; j++) {
ij = j * NumberOfStatesPlusTwo + i;
v->TotalNumberOfDCCActiveDPP[ij] = 0;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_source_params_st src =
e2e[v->planes[k].e2e_index].pipe.src;
ijk = k * 2 * NumberOfStatesPlusTwo + j * NumberOfStatesPlusTwo + i;
if (src.dcc == 1) {
v->TotalNumberOfDCCActiveDPP[ij] =
v->TotalNumberOfDCCActiveDPP[ij]
+ v->NoOfDPP[ijk];
}
}
}
}
for (i = 0; i < NumberOfStatesPlusTwo; i++) {
for (j = 0; j < 2; j++) {
ij = j * NumberOfStatesPlusTwo + i;
v->ProjectedDCFCLKDeepSleep = 8;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_dest_params_st dest =
e2e[v->planes[k].e2e_index].pipe.dest;
struct _vcs_dpi_scaler_ratio_depth_st scale_ratio_depth =
e2e[v->planes[k].e2e_index].pipe.scale_ratio_depth;
ijk = k * 2 * NumberOfStatesPlusTwo + j * NumberOfStatesPlusTwo + i;
v->ProjectedDCFCLKDeepSleep = dml_max(
v->ProjectedDCFCLKDeepSleep,
dest.pixel_rate_mhz / 16);
if (v->BytePerPixelInDETC[k] == 0) {
if (scale_ratio_depth.vscl_ratio <= 1) {
v->ProjectedDCFCLKDeepSleep =
dml_max(
v->ProjectedDCFCLKDeepSleep,
1.1
* dml_ceil_ex(
v->BytePerPixelInDETY[k],
1)
/ 64
* scale_ratio_depth.hscl_ratio
* dest.pixel_rate_mhz
/ v->NoOfDPP[ijk]);
} else {
v->ProjectedDCFCLKDeepSleep =
dml_max(
v->ProjectedDCFCLKDeepSleep,
1.1
* dml_ceil_ex(
v->BytePerPixelInDETY[k],
1)
/ 64
* v->PSCL_FACTOR[k]
* v->RequiredDISPCLK[ij]
/ (1
+ j));
}
} else {
if (scale_ratio_depth.vscl_ratio <= 1) {
v->ProjectedDCFCLKDeepSleep =
dml_max(
v->ProjectedDCFCLKDeepSleep,
1.1
* dml_ceil_ex(
v->BytePerPixelInDETY[k],
1)
/ 32
* scale_ratio_depth.hscl_ratio
* dest.pixel_rate_mhz
/ v->NoOfDPP[ijk]);
} else {
v->ProjectedDCFCLKDeepSleep =
dml_max(
v->ProjectedDCFCLKDeepSleep,
1.1
* dml_ceil_ex(
v->BytePerPixelInDETY[k],
1)
/ 32
* v->PSCL_FACTOR[k]
* v->RequiredDISPCLK[ij]
/ (1
+ j));
}
if ((scale_ratio_depth.vscl_ratio / 2) <= 1) {
v->ProjectedDCFCLKDeepSleep =
dml_max(
v->ProjectedDCFCLKDeepSleep,
1.1
* dml_ceil_ex(
v->BytePerPixelInDETC[k],
2)
/ 32
* scale_ratio_depth.hscl_ratio
/ 2
* dest.pixel_rate_mhz
/ v->NoOfDPP[ijk]);
} else {
v->ProjectedDCFCLKDeepSleep =
dml_max(
v->ProjectedDCFCLKDeepSleep,
1.1
* dml_ceil_ex(
v->BytePerPixelInDETC[k],
2)
/ 32
* v->PSCL_FACTOR_CHROMA[k]
* v->RequiredDISPCLK[ij]
/ (1
+ j));
}
}
}
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_source_params_st src =
e2e[v->planes[k].e2e_index].pipe.src;
struct _vcs_dpi_display_pipe_dest_params_st dest =
e2e[v->planes[k].e2e_index].pipe.dest;
struct _vcs_dpi_scaler_ratio_depth_st scale_ratio_depth =
e2e[v->planes[k].e2e_index].pipe.scale_ratio_depth;
struct _vcs_dpi_scaler_taps_st scale_taps =
e2e[v->planes[k].e2e_index].pipe.scale_taps;
struct _vcs_dpi_display_output_params_st dout =
e2e[v->planes[k].e2e_index].dout;
ijk = k * 2 * NumberOfStatesPlusTwo + j * NumberOfStatesPlusTwo + i;
if (src.dcc == 1) {
v->MetaReqHeightY = 8 * v->Read256BlockHeightY[k];
v->MetaReqWidthY = 64 * 256
/ dml_ceil_ex(v->BytePerPixelInDETY[k], 1)
/ v->MetaReqHeightY;
v->MetaSurfaceWidthY = dml_ceil_ex(
src.viewport_width / v->NoOfDPP[ijk] - 1,
v->MetaReqWidthY) + v->MetaReqWidthY;
v->MetaSurfaceHeightY = dml_ceil_ex(
src.viewport_height - 1,
v->MetaReqHeightY) + v->MetaReqHeightY;
if (ip->pte_enable == 1) {
v->MetaPteBytesPerFrameY =
(dml_ceil_ex(
(v->MetaSurfaceWidthY
* v->MetaSurfaceHeightY
* dml_ceil_ex(
v->BytePerPixelInDETY[k],
1)
/ 256.0
- 4096)
/ 8
/ 4096,
1) + 1) * 64;
} else {
v->MetaPteBytesPerFrameY = 0;
}
if (src.source_scan == dm_horz) {
v->MetaRowBytesY =
v->MetaSurfaceWidthY
* v->MetaReqHeightY
* dml_ceil_ex(
v->BytePerPixelInDETY[k],
1)
/ 256;
} else {
v->MetaRowBytesY =
v->MetaSurfaceHeightY
* v->MetaReqWidthY
* dml_ceil_ex(
v->BytePerPixelInDETY[k],
1)
/ 256;
}
} else {
v->MetaPteBytesPerFrameY = 0;
v->MetaRowBytesY = 0;
}
if (ip->pte_enable == 1) {
if (src.sw_mode == dm_sw_linear) {
v->MacroTileBlockSizeBytesY = 256;
v->MacroTileBlockHeightY = 1;
} else if (src.sw_mode == dm_sw_4kb_s
|| src.sw_mode == dm_sw_4kb_s_x
|| src.sw_mode == dm_sw_4kb_d
|| src.sw_mode == dm_sw_4kb_d_x) {
v->MacroTileBlockSizeBytesY = 4096;
v->MacroTileBlockHeightY = 4
* v->Read256BlockHeightY[k];
} else if (src.sw_mode == dm_sw_64kb_s
|| src.sw_mode == dm_sw_64kb_s_t
|| src.sw_mode == dm_sw_64kb_s_x
|| src.sw_mode == dm_sw_64kb_d
|| src.sw_mode == dm_sw_64kb_d_t
|| src.sw_mode == dm_sw_64kb_d_x) {
v->MacroTileBlockSizeBytesY = 64 * 1024;
v->MacroTileBlockHeightY = 16
* v->Read256BlockHeightY[k];
} else {
v->MacroTileBlockSizeBytesY = 256 * 1024;
v->MacroTileBlockHeightY = 32
* v->Read256BlockHeightY[k];
}
if (v->MacroTileBlockSizeBytesY <= 65536) {
v->DataPTEReqHeightY = v->MacroTileBlockHeightY;
} else {
v->DataPTEReqHeightY = 16
* v->Read256BlockHeightY[k];
}
v->DataPTEReqWidthY = 4096
/ dml_ceil_ex(v->BytePerPixelInDETY[k], 1)
/ v->DataPTEReqHeightY * 8;
if (src.sw_mode == dm_sw_linear) {
v->DPTEBytesPerRowY =
64
* (dml_ceil_ex(
(src.viewport_width
/ v->NoOfDPP[ijk]
* dml_min(
128,
dml_pow(
2,
dml_floor_ex(
dml_log(
ip->dpte_buffer_size_in_pte_reqs
* v->DataPTEReqWidthY
/ (src.viewport_width
/ v->NoOfDPP[ijk]),
2),
1)))
- 1)
/ v->DataPTEReqWidthY,
1)
+ 1);
} else if (src.source_scan == dm_horz) {
v->DPTEBytesPerRowY =
64
* (dml_ceil_ex(
(src.viewport_width
/ v->NoOfDPP[ijk]
- 1)
/ v->DataPTEReqWidthY,
1)
+ 1);
} else {
v->DPTEBytesPerRowY =
64
* (dml_ceil_ex(
(src.viewport_height
- 1)
/ v->DataPTEReqHeightY,
1)
+ 1);
}
} else {
v->DPTEBytesPerRowY = 0;
}
if (src.source_format != dm_444_64 && src.source_format != dm_444_32
&& src.source_format != dm_444_16) {
if (src.dcc == 1) {
v->MetaReqHeightC = 8 * v->Read256BlockHeightC[k];
v->MetaReqWidthC =
64 * 256
/ dml_ceil_ex(
v->BytePerPixelInDETC[k],
2)
/ v->MetaReqHeightC;
v->MetaSurfaceWidthC = dml_ceil_ex(
src.viewport_width / v->NoOfDPP[ijk]
/ 2 - 1,
v->MetaReqWidthC)
+ v->MetaReqWidthC;
v->MetaSurfaceHeightC = dml_ceil_ex(
src.viewport_height / 2 - 1,
v->MetaReqHeightC)
+ v->MetaReqHeightC;
if (ip->pte_enable == 1) {
v->MetaPteBytesPerFrameC =
(dml_ceil_ex(
(v->MetaSurfaceWidthC
* v->MetaSurfaceHeightC
* dml_ceil_ex(
v->BytePerPixelInDETC[k],
2)
/ 256.0
- 4096)
/ 8
/ 4096,
1) + 1)
* 64;
} else {
v->MetaPteBytesPerFrameC = 0;
}
if (src.source_scan == dm_horz) {
v->MetaRowBytesC =
v->MetaSurfaceWidthC
* v->MetaReqHeightC
* dml_ceil_ex(
v->BytePerPixelInDETC[k],
2)
/ 256;
} else {
v->MetaRowBytesC =
v->MetaSurfaceHeightC
* v->MetaReqWidthC
* dml_ceil_ex(
v->BytePerPixelInDETC[k],
2)
/ 256;
}
} else {
v->MetaPteBytesPerFrameC = 0;
v->MetaRowBytesC = 0;
}
if (ip->pte_enable == 1) {
if (src.sw_mode == dm_sw_linear) {
v->MacroTileBlockSizeBytesC = 256;
v->MacroTileBlockHeightC = 1;
} else if (src.sw_mode == dm_sw_4kb_s
|| src.sw_mode == dm_sw_4kb_s_x
|| src.sw_mode == dm_sw_4kb_d
|| src.sw_mode == dm_sw_4kb_d_x) {
v->MacroTileBlockSizeBytesC = 4096;
v->MacroTileBlockHeightC = 4
* v->Read256BlockHeightC[k];
} else if (src.sw_mode == dm_sw_64kb_s
|| src.sw_mode == dm_sw_64kb_s_t
|| src.sw_mode == dm_sw_64kb_s_x
|| src.sw_mode == dm_sw_64kb_d
|| src.sw_mode == dm_sw_64kb_d_t
|| src.sw_mode == dm_sw_64kb_d_x) {
v->MacroTileBlockSizeBytesC = 64 * 1024;
v->MacroTileBlockHeightC = 16
* v->Read256BlockHeightC[k];
} else {
v->MacroTileBlockSizeBytesC = 256 * 1024;
v->MacroTileBlockHeightC = 32
* v->Read256BlockHeightC[k];
}
v->MacroTileBlockWidthC =
v->MacroTileBlockSizeBytesC
/ dml_ceil_ex(
v->BytePerPixelInDETC[k],
2)
/ v->MacroTileBlockHeightC;
if (v->MacroTileBlockSizeBytesC <= 65536) {
v->DataPTEReqHeightC =
v->MacroTileBlockHeightC;
} else {
v->DataPTEReqHeightC = 16
* v->Read256BlockHeightC[k];
}
v->DataPTEReqWidthC =
4096
/ dml_ceil_ex(
v->BytePerPixelInDETC[k],
2)
/ v->DataPTEReqHeightC
* 8;
if (src.sw_mode == dm_sw_linear) {
v->DPTEBytesPerRowC =
64
* (dml_ceil_ex(
(src.viewport_width
/ v->NoOfDPP[ijk]
/ 2
* dml_min(
128,
dml_pow(
2,
dml_floor_ex(
dml_log(
ip->dpte_buffer_size_in_pte_reqs
* v->DataPTEReqWidthC
/ (src.viewport_width
/ v->NoOfDPP[ijk]
/ 2),
2),
1)))
- 1)
/ v->DataPTEReqWidthC,
1)
+ 1);
} else if (src.source_scan == dm_horz) {
v->DPTEBytesPerRowC =
64
* (dml_ceil_ex(
(src.viewport_width
/ v->NoOfDPP[ijk]
/ 2
- 1)
/ v->DataPTEReqWidthC,
1)
+ 1);
} else {
v->DPTEBytesPerRowC =
64
* (dml_ceil_ex(
(src.viewport_height
/ 2
- 1)
/ v->DataPTEReqHeightC,
1)
+ 1);
}
} else {
v->DPTEBytesPerRowC = 0;
}
} else {
v->DPTEBytesPerRowC = 0;
v->MetaPteBytesPerFrameC = 0;
v->MetaRowBytesC = 0;
}
v->DPTEBytesPerRow[k] = v->DPTEBytesPerRowY + v->DPTEBytesPerRowC;
v->MetaPTEBytesPerFrame[k] = v->MetaPteBytesPerFrameY
+ v->MetaPteBytesPerFrameC;
v->MetaRowBytes[k] = v->MetaRowBytesY + v->MetaRowBytesC;
v->VInitY = (scale_ratio_depth.vscl_ratio + scale_taps.vtaps + 1
+ dest.interlaced * 0.5
* scale_ratio_depth.vscl_ratio)
/ 2.0;
v->PrefillY[k] = dml_floor_ex(v->VInitY, 1);
v->MaxNumSwY[k] = dml_ceil_ex(
(v->PrefillY[k] - 1.0)
/ v->SwathHeightYPerState[ijk],
1) + 1.0;
if (v->PrefillY[k] > 1) {
v->MaxPartialSwY = ((int) (v->PrefillY[k] - 2))
% ((int) v->SwathHeightYPerState[ijk]);
} else {
v->MaxPartialSwY = ((int) (v->PrefillY[k]
+ v->SwathHeightYPerState[ijk] - 2))
% ((int) v->SwathHeightYPerState[ijk]);
}
v->MaxPartialSwY = dml_max(1, v->MaxPartialSwY);
v->PrefetchLinesY[k] = v->MaxNumSwY[k]
* v->SwathHeightYPerState[ijk] + v->MaxPartialSwY;
if (src.source_format != dm_444_64 && src.source_format != dm_444_32
&& src.source_format != dm_444_16) {
v->VInitC =
(scale_ratio_depth.vscl_ratio / 2
+ scale_taps.vtaps + 1
+ dest.interlaced * 0.5
* scale_ratio_depth.vscl_ratio
/ 2) / 2.0;
v->PrefillC[k] = dml_floor_ex(v->VInitC, 1);
v->MaxNumSwC[k] =
dml_ceil_ex(
(v->PrefillC[k] - 1.0)
/ v->SwathHeightCPerState[ijk],
1) + 1.0;
if (v->PrefillC[k] > 1) {
v->MaxPartialSwC =
((int) (v->PrefillC[k] - 2))
% ((int) v->SwathHeightCPerState[ijk]);
} else {
v->MaxPartialSwC =
((int) (v->PrefillC[k]
+ v->SwathHeightCPerState[ijk]
- 2))
% ((int) v->SwathHeightCPerState[ijk]);
}
v->MaxPartialSwC = dml_max(1, v->MaxPartialSwC);
v->PrefetchLinesC[k] = v->MaxNumSwC[k]
* v->SwathHeightCPerState[ijk]
+ v->MaxPartialSwC;
} else {
v->PrefetchLinesC[k] = 0;
}
v->dst_x_after_scaler = 90 * dest.pixel_rate_mhz
/ (v->RequiredDISPCLK[ij] / (j + 1))
+ 42 * dest.pixel_rate_mhz / v->RequiredDISPCLK[ij];
if (v->NoOfDPP[ijk] > 1) {
v->dst_x_after_scaler = v->dst_x_after_scaler
+ dest.recout_width / 2.0;
}
if (dout.output_format == dm_420) {
v->dst_y_after_scaler = 1;
} else {
v->dst_y_after_scaler = 0;
}
v->TimeCalc = 24 / v->ProjectedDCFCLKDeepSleep;
v->VUpdateOffset = dml_ceil_ex(dest.htotal / 4, 1);
v->TotalRepeaterDelay = ip->max_inter_dcn_tile_repeaters
* (2 / (v->RequiredDISPCLK[ij] / (j + 1))
+ 3 / v->RequiredDISPCLK[ij]);
v->VUpdateWidth = (14 / v->ProjectedDCFCLKDeepSleep
+ 12 / (v->RequiredDISPCLK[ij] / (j + 1))
+ v->TotalRepeaterDelay) * dest.pixel_rate_mhz;
v->VReadyOffset =
dml_max(
150
/ (v->RequiredDISPCLK[ij]
/ (j
+ 1)),
v->TotalRepeaterDelay
+ 20
/ v->ProjectedDCFCLKDeepSleep
+ 10
/ (v->RequiredDISPCLK[ij]
/ (j
+ 1)))
* dest.pixel_rate_mhz;
v->TimeSetup =
(v->VUpdateOffset + v->VUpdateWidth
+ v->VReadyOffset)
/ dest.pixel_rate_mhz;
v->ExtraLatency =
v->UrgentRoundTripAndOutOfOrderLatencyPerState[i]
+ (v->TotalNumberOfActiveDPP[ij]
* ip->pixel_chunk_size_kbytes
+ v->TotalNumberOfDCCActiveDPP[ij]
* ip->meta_chunk_size_kbytes)
* 1024
/ v->ReturnBWPerState[i];
if (ip->pte_enable == 1) {
v->ExtraLatency = v->ExtraLatency
+ v->TotalNumberOfActiveDPP[ij]
* ip->pte_chunk_size_kbytes
* 1024
/ v->ReturnBWPerState[i];
}
if (ip->can_vstartup_lines_exceed_vsync_plus_back_porch_lines_minus_one
== 1) {
v->MaximumVStartup = dest.vtotal - dest.vactive - 1;
} else {
v->MaximumVStartup = dest.vsync_plus_back_porch - 1;
}
v->LineTimesForPrefetch[k] =
v->MaximumVStartup
- soc->urgent_latency_us
/ (dest.htotal
/ dest.pixel_rate_mhz)
- (v->TimeCalc + v->TimeSetup)
/ (dest.htotal
/ dest.pixel_rate_mhz)
- (v->dst_y_after_scaler
+ v->dst_x_after_scaler
/ dest.htotal);
v->LineTimesForPrefetch[k] = dml_floor_ex(
4.0 * (v->LineTimesForPrefetch[k] + 0.125),
1) / 4;
v->PrefetchBW[k] =
(v->MetaPTEBytesPerFrame[k] + 2 * v->MetaRowBytes[k]
+ 2 * v->DPTEBytesPerRow[k]
+ v->PrefetchLinesY[k]
* v->SwathWidthYPerState[ijk]
* dml_ceil_ex(
v->BytePerPixelInDETY[k],
1)
+ v->PrefetchLinesC[k]
* v->SwathWidthYPerState[ijk]
/ 2
* dml_ceil_ex(
v->BytePerPixelInDETC[k],
2))
/ (v->LineTimesForPrefetch[k]
* dest.htotal
/ dest.pixel_rate_mhz);
}
v->BWAvailableForImmediateFlip = v->ReturnBWPerState[i];
for (k = 0; k < num_planes; k++) {
v->BWAvailableForImmediateFlip = v->BWAvailableForImmediateFlip
- dml_max(v->ReadBandwidth[k], v->PrefetchBW[k]);
}
v->TotalImmediateFlipBytes = 0;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_source_params_st src =
e2e[v->planes[k].e2e_index].pipe.src;
if (src.source_format != dm_420_8
&& src.source_format != dm_420_10) {
v->TotalImmediateFlipBytes = v->TotalImmediateFlipBytes
+ v->MetaPTEBytesPerFrame[k]
+ v->MetaRowBytes[k]
+ v->DPTEBytesPerRow[k];
}
}
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_source_params_st src =
e2e[v->planes[k].e2e_index].pipe.src;
struct _vcs_dpi_display_pipe_dest_params_st dest =
e2e[v->planes[k].e2e_index].pipe.dest;
ijk = k * 2 * NumberOfStatesPlusTwo + j * NumberOfStatesPlusTwo + i;
if (ip->pte_enable == 1 && src.dcc == 1) {
v->TimeForMetaPTEWithImmediateFlip =
dml_max(
v->MetaPTEBytesPerFrame[k]
/ v->PrefetchBW[k],
dml_max(
v->MetaPTEBytesPerFrame[k]
* v->TotalImmediateFlipBytes
/ (v->BWAvailableForImmediateFlip
* (v->MetaPTEBytesPerFrame[k]
+ v->MetaRowBytes[k]
+ v->DPTEBytesPerRow[k])),
dml_max(
v->ExtraLatency,
dml_max(
soc->urgent_latency_us,
dest.htotal
/ dest.pixel_rate_mhz
/ 4))));
v->TimeForMetaPTEWithoutImmediateFlip =
dml_max(
v->MetaPTEBytesPerFrame[k]
/ v->PrefetchBW[k],
dml_max(
v->ExtraLatency,
dest.htotal
/ dest.pixel_rate_mhz
/ 4));
} else {
v->TimeForMetaPTEWithImmediateFlip = dest.htotal
/ dest.pixel_rate_mhz / 4;
v->TimeForMetaPTEWithoutImmediateFlip = dest.htotal
/ dest.pixel_rate_mhz / 4;
}
if (ip->pte_enable == 1 || src.dcc == 1) {
v->TimeForMetaAndDPTERowWithImmediateFlip =
dml_max(
(v->MetaRowBytes[k]
+ v->DPTEBytesPerRow[k])
/ v->PrefetchBW[k],
dml_max(
(v->MetaRowBytes[k]
+ v->DPTEBytesPerRow[k])
* v->TotalImmediateFlipBytes
/ (v->BWAvailableForImmediateFlip
* (v->MetaPTEBytesPerFrame[k]
+ v->MetaRowBytes[k]
+ v->DPTEBytesPerRow[k])),
dml_max(
dest.htotal
/ dest.pixel_rate_mhz
- v->TimeForMetaPTEWithImmediateFlip,
dml_max(
v->ExtraLatency,
2
* soc->urgent_latency_us))));
v->TimeForMetaAndDPTERowWithoutImmediateFlip =
dml_max(
(v->MetaRowBytes[k]
+ v->DPTEBytesPerRow[k])
/ v->PrefetchBW[k],
dml_max(
dest.htotal
/ dest.pixel_rate_mhz
- v->TimeForMetaPTEWithoutImmediateFlip,
v->ExtraLatency));
} else {
v->TimeForMetaAndDPTERowWithImmediateFlip =
dml_max(
dest.htotal
/ dest.pixel_rate_mhz
- v->TimeForMetaPTEWithImmediateFlip,
v->ExtraLatency
- v->TimeForMetaPTEWithImmediateFlip);
v->TimeForMetaAndDPTERowWithoutImmediateFlip =
dml_max(
dest.htotal
/ dest.pixel_rate_mhz
- v->TimeForMetaPTEWithoutImmediateFlip,
v->ExtraLatency
- v->TimeForMetaPTEWithoutImmediateFlip);
}
v->LinesForMetaPTEWithImmediateFlip[k] =
dml_floor_ex(
4.0
* (v->TimeForMetaPTEWithImmediateFlip
/ (dest.htotal
/ dest.pixel_rate_mhz)
+ 0.125),
1) / 4.0;
v->LinesForMetaPTEWithoutImmediateFlip[k] =
dml_floor_ex(
4.0
* (v->TimeForMetaPTEWithoutImmediateFlip
/ (dest.htotal
/ dest.pixel_rate_mhz)
+ 0.125),
1) / 4.0;
v->LinesForMetaAndDPTERowWithImmediateFlip[k] =
dml_floor_ex(
4.0
* (v->TimeForMetaAndDPTERowWithImmediateFlip
/ (dest.htotal
/ dest.pixel_rate_mhz)
+ 0.125),
1) / 4.0;
v->LinesForMetaAndDPTERowWithoutImmediateFlip[k] =
dml_floor_ex(
4.0
* (v->TimeForMetaAndDPTERowWithoutImmediateFlip
/ (dest.htotal
/ dest.pixel_rate_mhz)
+ 0.125),
1) / 4.0;
v->LineTimesToRequestPrefetchPixelDataWithImmediateFlip =
v->LineTimesForPrefetch[k]
- v->LinesForMetaPTEWithImmediateFlip[k]
- v->LinesForMetaAndDPTERowWithImmediateFlip[k];
v->LineTimesToRequestPrefetchPixelDataWithoutImmediateFlip =
v->LineTimesForPrefetch[k]
- v->LinesForMetaPTEWithoutImmediateFlip[k]
- v->LinesForMetaAndDPTERowWithoutImmediateFlip[k];
if (v->LineTimesToRequestPrefetchPixelDataWithImmediateFlip > 0) {
v->VRatioPreYWithImmediateFlip[ijk] =
v->PrefetchLinesY[k]
/ v->LineTimesToRequestPrefetchPixelDataWithImmediateFlip;
if (v->SwathHeightYPerState[ijk] > 4) {
if (v->LineTimesToRequestPrefetchPixelDataWithImmediateFlip
- (v->PrefillY[k] - 3.0) / 2.0
> 0) {
v->VRatioPreYWithImmediateFlip[ijk] =
dml_max(
v->VRatioPreYWithImmediateFlip[ijk],
(v->MaxNumSwY[k]
* v->SwathHeightYPerState[ijk])
/ (v->LineTimesToRequestPrefetchPixelDataWithImmediateFlip
- (v->PrefillY[k]
- 3.0)
/ 2.0));
} else {
v->VRatioPreYWithImmediateFlip[ijk] =
999999;
}
}
v->VRatioPreCWithImmediateFlip[ijk] =
v->PrefetchLinesC[k]
/ v->LineTimesToRequestPrefetchPixelDataWithImmediateFlip;
if (v->SwathHeightCPerState[ijk] > 4) {
if (v->LineTimesToRequestPrefetchPixelDataWithImmediateFlip
- (v->PrefillC[k] - 3.0) / 2.0
> 0) {
v->VRatioPreCWithImmediateFlip[ijk] =
dml_max(
v->VRatioPreCWithImmediateFlip[ijk],
(v->MaxNumSwC[k]
* v->SwathHeightCPerState[ijk])
/ (v->LineTimesToRequestPrefetchPixelDataWithImmediateFlip
- (v->PrefillC[k]
- 3.0)
/ 2.0));
} else {
v->VRatioPreCWithImmediateFlip[ijk] =
999999;
}
}
v->RequiredPrefetchPixelDataBWWithImmediateFlip[ijk] =
v->NoOfDPP[ijk]
* (v->PrefetchLinesY[k]
/ v->LineTimesToRequestPrefetchPixelDataWithImmediateFlip
* dml_ceil_ex(
v->BytePerPixelInDETY[k],
1)
+ v->PrefetchLinesC[k]
/ v->LineTimesToRequestPrefetchPixelDataWithImmediateFlip
* dml_ceil_ex(
v->BytePerPixelInDETC[k],
2)
/ 2)
* v->SwathWidthYPerState[ijk]
/ (dest.htotal
/ dest.pixel_rate_mhz);
} else {
v->VRatioPreYWithImmediateFlip[ijk] = 999999;
v->VRatioPreCWithImmediateFlip[ijk] = 999999;
v->RequiredPrefetchPixelDataBWWithImmediateFlip[ijk] =
999999;
}
if (v->LineTimesToRequestPrefetchPixelDataWithoutImmediateFlip
> 0) {
v->VRatioPreYWithoutImmediateFlip[ijk] =
v->PrefetchLinesY[k]
/ v->LineTimesToRequestPrefetchPixelDataWithoutImmediateFlip;
if (v->SwathHeightYPerState[ijk] > 4) {
if (v->LineTimesToRequestPrefetchPixelDataWithoutImmediateFlip
- (v->PrefillY[k] - 3.0) / 2.0
> 0) {
v->VRatioPreYWithoutImmediateFlip[ijk] =
dml_max(
v->VRatioPreYWithoutImmediateFlip[ijk],
(v->MaxNumSwY[k]
* v->SwathHeightYPerState[ijk])
/ (v->LineTimesToRequestPrefetchPixelDataWithoutImmediateFlip
- (v->PrefillY[k]
- 3.0)
/ 2.0));
} else {
v->VRatioPreYWithoutImmediateFlip[ijk] =
999999;
}
}
v->VRatioPreCWithoutImmediateFlip[ijk] =
v->PrefetchLinesC[k]
/ v->LineTimesToRequestPrefetchPixelDataWithoutImmediateFlip;
if (v->SwathHeightCPerState[ijk] > 4) {
if (v->LineTimesToRequestPrefetchPixelDataWithoutImmediateFlip
- (v->PrefillC[k] - 3.0) / 2.0
> 0) {
v->VRatioPreCWithoutImmediateFlip[ijk] =
dml_max(
v->VRatioPreCWithoutImmediateFlip[ijk],
(v->MaxNumSwC[k]
* v->SwathHeightCPerState[ijk])
/ (v->LineTimesToRequestPrefetchPixelDataWithoutImmediateFlip
- (v->PrefillC[k]
- 3.0)
/ 2.0));
} else {
v->VRatioPreCWithoutImmediateFlip[ijk] =
999999;
}
}
v->RequiredPrefetchPixelDataBWWithoutImmediateFlip[ijk] =
v->NoOfDPP[ijk]
* (v->PrefetchLinesY[k]
/ v->LineTimesToRequestPrefetchPixelDataWithoutImmediateFlip
* dml_ceil_ex(
v->BytePerPixelInDETY[k],
1)
+ v->PrefetchLinesC[k]
/ v->LineTimesToRequestPrefetchPixelDataWithoutImmediateFlip
* dml_ceil_ex(
v->BytePerPixelInDETC[k],
2)
/ 2)
* v->SwathWidthYPerState[ijk]
/ (dest.htotal
/ dest.pixel_rate_mhz);
} else {
v->VRatioPreYWithoutImmediateFlip[ijk] = 999999;
v->VRatioPreCWithoutImmediateFlip[ijk] = 999999;
v->RequiredPrefetchPixelDataBWWithoutImmediateFlip[ijk] =
999999;
}
}
v->MaximumReadBandwidthWithPrefetchWithImmediateFlip = 0;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_source_params_st src =
e2e[v->planes[k].e2e_index].pipe.src;
struct _vcs_dpi_display_pipe_dest_params_st dest =
e2e[v->planes[k].e2e_index].pipe.dest;
ijk = k * 2 * NumberOfStatesPlusTwo + j * NumberOfStatesPlusTwo + i;
if (src.source_format != dm_420_8
&& src.source_format != dm_420_10) {
v->MaximumReadBandwidthWithPrefetchWithImmediateFlip =
v->MaximumReadBandwidthWithPrefetchWithImmediateFlip
+ dml_max(
v->ReadBandwidth[k],
v->RequiredPrefetchPixelDataBWWithImmediateFlip[ijk])
+ dml_max(
v->MetaPTEBytesPerFrame[k]
/ (v->LinesForMetaPTEWithImmediateFlip[k]
* dest.htotal
/ dest.pixel_rate_mhz),
(v->MetaRowBytes[k]
+ v->DPTEBytesPerRow[k])
/ (v->LinesForMetaAndDPTERowWithImmediateFlip[k]
* dest.htotal
/ dest.pixel_rate_mhz));
} else {
v->MaximumReadBandwidthWithPrefetchWithImmediateFlip =
v->MaximumReadBandwidthWithPrefetchWithImmediateFlip
+ dml_max(
v->ReadBandwidth[k],
v->RequiredPrefetchPixelDataBWWithoutImmediateFlip[ijk]);
}
}
v->MaximumReadBandwidthWithPrefetchWithoutImmediateFlip = 0;
for (k = 0; k < num_planes; k++) {
ijk = k * 2 * NumberOfStatesPlusTwo + j * NumberOfStatesPlusTwo + i;
v->MaximumReadBandwidthWithPrefetchWithoutImmediateFlip =
v->MaximumReadBandwidthWithPrefetchWithoutImmediateFlip
+ dml_max(
v->ReadBandwidth[k],
v->RequiredPrefetchPixelDataBWWithoutImmediateFlip[ijk]);
}
v->PrefetchSupportedWithImmediateFlip[ij] = 1;
if (v->MaximumReadBandwidthWithPrefetchWithImmediateFlip
> v->ReturnBWPerState[i]) {
v->PrefetchSupportedWithImmediateFlip[ij] = 0;
}
for (k = 0; k < num_planes; k++) {
if (v->LineTimesForPrefetch[k] < 2
|| v->LinesForMetaPTEWithImmediateFlip[k] >= 8
|| v->LinesForMetaAndDPTERowWithImmediateFlip[k]
>= 16) {
v->PrefetchSupportedWithImmediateFlip[ij] = 0;
}
}
v->PrefetchSupportedWithoutImmediateFlip[ij] = 1;
if (v->MaximumReadBandwidthWithPrefetchWithoutImmediateFlip
> v->ReturnBWPerState[i]) {
v->PrefetchSupportedWithoutImmediateFlip[ij] = 0;
}
for (k = 0; k < num_planes; k++) {
if (v->LineTimesForPrefetch[k] < 2
|| v->LinesForMetaPTEWithoutImmediateFlip[k] >= 8
|| v->LinesForMetaAndDPTERowWithoutImmediateFlip[k]
>= 16) {
v->PrefetchSupportedWithoutImmediateFlip[ij] = 0;
}
}
}
}
for (i = 0; i < NumberOfStatesPlusTwo; i++) {
for (j = 0; j < 2; j++) {
ij = j * NumberOfStatesPlusTwo + i;
v->VRatioInPrefetchSupportedWithImmediateFlip[ij] = 1;
for (k = 0; k < num_planes; k++) {
struct _vcs_dpi_display_pipe_source_params_st src =
e2e[v->planes[k].e2e_index].pipe.src;
ijk = k * 2 * NumberOfStatesPlusTwo + j * NumberOfStatesPlusTwo + i;
if (((src.source_format != dm_420_8
&& src.source_format != dm_420_10)
&& (v->VRatioPreYWithImmediateFlip[ijk] > 4
|| v->VRatioPreCWithImmediateFlip[ijk]
> 4))
|| ((src.source_format == dm_420_8
|| src.source_format == dm_420_10)
&& (v->VRatioPreYWithoutImmediateFlip[ijk]
> 4
|| v->VRatioPreCWithoutImmediateFlip[ijk]
> 4))) {
v->VRatioInPrefetchSupportedWithImmediateFlip[ij] = 0;
}
}
v->VRatioInPrefetchSupportedWithoutImmediateFlip[ij] = 1;
for (k = 0; k < num_planes; k++) {
ijk = k * 2 * NumberOfStatesPlusTwo + j * NumberOfStatesPlusTwo + i;
if (v->VRatioPreYWithoutImmediateFlip[ijk] > 4
|| v->VRatioPreCWithoutImmediateFlip[ijk] > 4) {
v->VRatioInPrefetchSupportedWithoutImmediateFlip[ij] = 0;
}
}
}
}
// Mode Support, Voltage State and SOC Configuration
for (i = (NumberOfStatesPlusTwo - 1); i >= 0; i--) // use int type here
{
for (j = 0; j < 2; j++) {
ij = j * NumberOfStatesPlusTwo + i;
if (v->ScaleRatioSupport == 1 && v->SourceFormatPixelAndScanSupport == 1
&& v->ViewportSizeSupport == 1
&& v->BandwidthSupport[i] == 1 && v->DIOSupport[i] == 1
&& v->UrgentLatencySupport[ij] == 1 && v->ROBSupport[i] == 1
&& v->DISPCLK_DPPCLK_Support[ij] == 1
&& v->TotalAvailablePipesSupport[ij] == 1
&& v->TotalAvailableWritebackSupport == 1
&& v->WritebackLatencySupport == 1) {
if (v->PrefetchSupportedWithImmediateFlip[ij] == 1
&& v->VRatioInPrefetchSupportedWithImmediateFlip[ij]
== 1) {
v->ModeSupportWithImmediateFlip[ij] = 1;
} else {
v->ModeSupportWithImmediateFlip[ij] = 0;
}
if (v->PrefetchSupportedWithoutImmediateFlip[ij] == 1
&& v->VRatioInPrefetchSupportedWithoutImmediateFlip[ij]
== 1) {
v->ModeSupportWithoutImmediateFlip[ij] = 1;
} else {
v->ModeSupportWithoutImmediateFlip[ij] = 0;
}
} else {
v->ModeSupportWithImmediateFlip[ij] = 0;
v->ModeSupportWithoutImmediateFlip[ij] = 0;
}
}
}
for (i = (NumberOfStatesPlusTwo - 1); i >= 0; i--) // use int type here
{
if ((i == (NumberOfStatesPlusTwo - 1)
|| v->ModeSupportWithImmediateFlip[1 * NumberOfStatesPlusTwo + i]
== 1
|| v->ModeSupportWithImmediateFlip[0 * NumberOfStatesPlusTwo + i]
== 1) && i >= v->VoltageOverrideLevel) {
v->VoltageLevelWithImmediateFlip = i;
}
}
for (i = (NumberOfStatesPlusTwo - 1); i >= 0; i--) // use int type here
{
if ((i == (NumberOfStatesPlusTwo - 1)
|| v->ModeSupportWithoutImmediateFlip[1 * NumberOfStatesPlusTwo + i]
== 1
|| v->ModeSupportWithoutImmediateFlip[0 * NumberOfStatesPlusTwo + i]
== 1) && i >= v->VoltageOverrideLevel) {
v->VoltageLevelWithoutImmediateFlip = i;
}
}
if (v->VoltageLevelWithImmediateFlip == (NumberOfStatesPlusTwo - 1)) {
v->ImmediateFlipSupported = 0;
v->VoltageLevel = v->VoltageLevelWithoutImmediateFlip;
} else {
v->ImmediateFlipSupported = 1;
v->VoltageLevel = v->VoltageLevelWithImmediateFlip;
}
v->DCFCLK = v->DCFCLKPerState[(int) v->VoltageLevel];
v->FabricAndDRAMBandwidth = v->FabricAndDRAMBandwidthPerState[(int) v->VoltageLevel];
for (j = 0; j < 2; j++) {
v->RequiredDISPCLKPerRatio[j] = v->RequiredDISPCLK[j * NumberOfStatesPlusTwo
+ (int) v->VoltageLevel];
for (k = 0; k < num_planes; k++) {
v->DPPPerPlanePerRatio[k * 2 + j] = v->NoOfDPP[k * 2 * NumberOfStatesPlusTwo
+ j * NumberOfStatesPlusTwo + (int) v->VoltageLevel];
}
v->DISPCLK_DPPCLK_SupportPerRatio[j] = v->DISPCLK_DPPCLK_Support[j
* NumberOfStatesPlusTwo + (int) v->VoltageLevel];
}
ASSERT(v->ImmediateFlipSupported || v->MacroTileBlockWidthC || v->DCFCLK || v->FabricAndDRAMBandwidth);
return (v->VoltageLevel);
}
......@@ -191,9 +191,4 @@ struct dml_ms_internal_vars {
struct _vcs_dpi_wm_calc_pipe_params_st planes[DC__NUM_PIPES__MAX];
};
int dml_ms_check(
struct display_mode_lib *mode_lib,
struct _vcs_dpi_display_e2e_pipe_params_st *e2e,
int num_pipes);
#endif
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