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VK: move static chip_family_tables to cpp

This commit is contained in:
Megamouse 2020-12-30 10:42:35 +01:00 committed by Ivan
parent 7a51b7a019
commit 6f80fd0063
2 changed files with 50 additions and 50 deletions
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50
rpcs3/Emu/RSX/VK/vkutils/chip_class.cpp
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@ -3,6 +3,56 @@
namespace vk
{
static chip_family_table s_AMD_family_tree = []()
{
chip_family_table table;
table.default_ = chip_class::AMD_gcn_generic;
// AMD cards. See https://github.com/torvalds/linux/blob/master/drivers/gpu/drm/amd/amdgpu/amdgpu_drv.c
table.add(0x67C0, 0x67FF, chip_class::AMD_polaris);
table.add(0x6FDF, chip_class::AMD_polaris); // RX580 2048SP
table.add(0x6980, 0x699F, chip_class::AMD_polaris); // Polaris12
table.add(0x694C, 0x694F, chip_class::AMD_vega); // VegaM
table.add(0x6860, 0x686F, chip_class::AMD_vega); // VegaPro
table.add(0x687F, chip_class::AMD_vega); // Vega56/64
table.add(0x69A0, 0x69AF, chip_class::AMD_vega); // Vega12
table.add(0x66A0, 0x66AF, chip_class::AMD_vega); // Vega20
table.add(0x15DD, chip_class::AMD_vega); // Raven Ridge
table.add(0x15D8, chip_class::AMD_vega); // Raven Ridge
table.add(0x7310, 0x731F, chip_class::AMD_navi1x); // Navi10
table.add(0x7340, 0x734F, chip_class::AMD_navi1x); // Navi14
table.add(0x73A0, 0x73BF, chip_class::AMD_navi2x); // Sienna cichlid
return table;
}();
static chip_family_table s_NV_family_tree = []()
{
chip_family_table table;
table.default_ = chip_class::NV_generic;
// NV cards. See https://envytools.readthedocs.io/en/latest/hw/pciid.html
// NOTE: Since NV device IDs are linearly incremented per generation, there is no need to carefully check all the ranges
table.add(0x1180, 0x11fa, chip_class::NV_kepler); // GK104, 106
table.add(0x0FC0, 0x0FFF, chip_class::NV_kepler); // GK107
table.add(0x1003, 0x1028, chip_class::NV_kepler); // GK110
table.add(0x1280, 0x12BA, chip_class::NV_kepler); // GK208
table.add(0x1381, 0x13B0, chip_class::NV_maxwell); // GM107
table.add(0x1340, 0x134D, chip_class::NV_maxwell); // GM108
table.add(0x13C0, 0x13D9, chip_class::NV_maxwell); // GM204
table.add(0x1401, 0x1427, chip_class::NV_maxwell); // GM206
table.add(0x15F7, 0x15F9, chip_class::NV_pascal); // GP100 (Tesla P100)
table.add(0x1B00, 0x1D80, chip_class::NV_pascal);
table.add(0x1D81, 0x1DBA, chip_class::NV_volta);
table.add(0x1E02, 0x1F54, chip_class::NV_turing); // TU102, TU104, TU106, TU106M, TU106GL (RTX 20 series)
table.add(0x1F82, 0x1FB9, chip_class::NV_turing); // TU117, TU117M, TU117GL
table.add(0x2182, 0x21D1, chip_class::NV_turing); // TU116, TU116M, TU116GL
table.add(0x20B0, 0x20BE, chip_class::NV_ampere); // GA100
table.add(0x2204, 0x25AF, chip_class::NV_ampere); // GA10x (RTX 30 series)
return table;
}();
chip_class g_chip_class = chip_class::unknown;
chip_class get_chip_family()

50
rpcs3/Emu/RSX/VK/vkutils/chip_class.h
View File

@ -43,56 +43,6 @@ namespace vk
chip_class find(u32 device_id);
};
static chip_family_table s_AMD_family_tree = []()
{
chip_family_table table;
table.default_ = chip_class::AMD_gcn_generic;
// AMD cards. See https://github.com/torvalds/linux/blob/master/drivers/gpu/drm/amd/amdgpu/amdgpu_drv.c
table.add(0x67C0, 0x67FF, chip_class::AMD_polaris);
table.add(0x6FDF, chip_class::AMD_polaris); // RX580 2048SP
table.add(0x6980, 0x699F, chip_class::AMD_polaris); // Polaris12
table.add(0x694C, 0x694F, chip_class::AMD_vega); // VegaM
table.add(0x6860, 0x686F, chip_class::AMD_vega); // VegaPro
table.add(0x687F, chip_class::AMD_vega); // Vega56/64
table.add(0x69A0, 0x69AF, chip_class::AMD_vega); // Vega12
table.add(0x66A0, 0x66AF, chip_class::AMD_vega); // Vega20
table.add(0x15DD, chip_class::AMD_vega); // Raven Ridge
table.add(0x15D8, chip_class::AMD_vega); // Raven Ridge
table.add(0x7310, 0x731F, chip_class::AMD_navi1x); // Navi10
table.add(0x7340, 0x734F, chip_class::AMD_navi1x); // Navi14
table.add(0x73A0, 0x73BF, chip_class::AMD_navi2x); // Sienna cichlid
return table;
}();
static chip_family_table s_NV_family_tree = []()
{
chip_family_table table;
table.default_ = chip_class::NV_generic;
// NV cards. See https://envytools.readthedocs.io/en/latest/hw/pciid.html
// NOTE: Since NV device IDs are linearly incremented per generation, there is no need to carefully check all the ranges
table.add(0x1180, 0x11fa, chip_class::NV_kepler); // GK104, 106
table.add(0x0FC0, 0x0FFF, chip_class::NV_kepler); // GK107
table.add(0x1003, 0x1028, chip_class::NV_kepler); // GK110
table.add(0x1280, 0x12BA, chip_class::NV_kepler); // GK208
table.add(0x1381, 0x13B0, chip_class::NV_maxwell); // GM107
table.add(0x1340, 0x134D, chip_class::NV_maxwell); // GM108
table.add(0x13C0, 0x13D9, chip_class::NV_maxwell); // GM204
table.add(0x1401, 0x1427, chip_class::NV_maxwell); // GM206
table.add(0x15F7, 0x15F9, chip_class::NV_pascal); // GP100 (Tesla P100)
table.add(0x1B00, 0x1D80, chip_class::NV_pascal);
table.add(0x1D81, 0x1DBA, chip_class::NV_volta);
table.add(0x1E02, 0x1F54, chip_class::NV_turing); // TU102, TU104, TU106, TU106M, TU106GL (RTX 20 series)
table.add(0x1F82, 0x1FB9, chip_class::NV_turing); // TU117, TU117M, TU117GL
table.add(0x2182, 0x21D1, chip_class::NV_turing); // TU116, TU116M, TU116GL
table.add(0x20B0, 0x20BE, chip_class::NV_ampere); // GA100
table.add(0x2204, 0x25AF, chip_class::NV_ampere); // GA10x (RTX 30 series)
return table;
}();
chip_class get_chip_family();
chip_class get_chip_family(u32 vendor_id, u32 device_id);
}