#include "chip_class.h" #include "util/logs.hpp" namespace vk { static const 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); // Polaris 10/11 table.add(0x6FDF, chip_class::AMD_polaris); // RX 580 2048SP table.add(0x6980, 0x699F, chip_class::AMD_polaris); // Polaris 12 table.add(0x694C, 0x694F, chip_class::AMD_vega); // Vega M table.add(0x6860, 0x686F, chip_class::AMD_vega); // Vega Pro table.add(0x687F, chip_class::AMD_vega); // Vega 56/64 table.add(0x69A0, 0x69AF, chip_class::AMD_vega); // Vega 12 table.add(0x66A0, 0x66AF, chip_class::AMD_vega); // Vega 20 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); // Navi 10 table.add(0x7360, 0x7362, chip_class::AMD_navi1x); // Navi 12 table.add(0x7340, 0x734F, chip_class::AMD_navi1x); // Navi 14 table.add(0x73A0, 0x73BF, chip_class::AMD_navi2x); // Navi 21 (Sienna Cichlid) table.add(0x73C0, 0x73DF, chip_class::AMD_navi2x); // Navi 22 (Navy Flounder) table.add(0x73E0, 0x73FF, chip_class::AMD_navi2x); // Navi 23 (Dimgrey Cavefish) table.add(0x7420, 0x743F, chip_class::AMD_navi2x); // Navi 24 (Beige Goby) table.add(0x163F, chip_class::AMD_navi2x); // Navi 2X (Van Gogh) table.add(0x164D, 0x1681, chip_class::AMD_navi2x); // Navi 2X (Yellow Carp) return table; }(); static const 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, 0x102F, chip_class::NV_kepler); // GK110, GK210 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() { return g_chip_class; } chip_class get_chip_family(u32 vendor_id, u32 device_id) { if (vendor_id == 0x10DE) { return s_NV_family_tree.find(device_id); } if (vendor_id == 0x1002) { return s_AMD_family_tree.find(device_id); } return chip_class::unknown; } void chip_family_table::add(u32 first, u32 last, chip_class family) { for (auto i = first; i <= last; ++i) { lut[i] = family; } } void chip_family_table::add(u32 id, chip_class family) { lut[id] = family; } chip_class chip_family_table::find(u32 device_id) const { if (auto found = lut.find(device_id); found != lut.end()) { return found->second; } rsx_log.warning("Unknown chip with device ID 0x%x", device_id); return default_; } }