Difference between revisions of "NVidia"
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! Lithography | ! Lithography | ||
! Announced | ! Announced | ||
| + | |- | ||
| + | | [[Nvidia Tegra Orin|Tegra Orin]] | ||
| + | | | ||
| + | * 12x ARM Cortex-A78AE | ||
| + | | 2024x Nvidia Ampere (GA) | ||
| + | | (200 TOPS) | ||
| + | | | ||
| + | | LPDDR5 | ||
| + | | ´´n/a´´ | ||
| + | | T234 (Orin) | ||
| + | | | ||
| + | | 2019/12<ref name="tegra orin release">[https://nvidianews.nvidia.com/news/nvidia-introduces-drive-agx-orin-advanced-software-defined-platform-for-autonomous-machines NVIDIA Introduces DRIVE AGX Orin — Advanced, Software-Defined Platform for Autonomous Machines]</ref> | ||
| + | |- | ||
| + | | [[Nvidia Tegra Xavier|Tegra Xavier]] | ||
| + | | | ||
| + | * 8x Nvidia Carmel @ 2.26 GHz | ||
| + | | (1.4 TFLOPS)<br />512x Nvidia Volta (GV10B) @ 1377 MHz | ||
| + | | (30 TOPS) | ||
| + | | | ||
| + | | LPDDR4x octa-channel 32-bit<br />@ 2133 MHz (137 GB/s) | ||
| + | | ´´n/a´´ | ||
| + | | T194 (Xavier) | ||
| + | | "12 nm"<br />TSMC 12FFN | ||
| + | | 2016/09<ref name="tegra xavier release">[https://blogs.nvidia.com/blog/2016/09/28/xavier/ Introducing Xavier, the NVIDIA AI Supercomputer for the Future of Autonomous Transportation]</ref> | ||
| + | |- | ||
| + | | [[Nvidia Tegra X2|Tegra X2]] | ||
| + | | | ||
| + | * 2x Nvidia Denver 2 @ 2.0 GHz | ||
| + | * 4x ARM Cortex-A57 @ 2.0 GHz | ||
| + | | 256x Nvidia Pascal (GP10B) @ 1465 MHz | ||
| + | | | ||
| + | | | ||
| + | | LPDDR4 quad-channel 32-bit<br />@ 1866 MHz (58.4 GB/s) | ||
| + | | ´´n/a´´ | ||
| + | | T186 (Parker) | ||
| + | | "16 nm"<br />TSMC 16FF | ||
| + | | 2016/08<ref name="tegra x2 release">[https://blogs.nvidia.com/blog/2016/08/22/parker-for-self-driving-cars/ Get Under the Hood of Parker, Our Newest SOC for Autonomous Vehicles]</ref> | ||
|- | |- | ||
| [[Nvidia Tegra X1|Tegra X1]] | | [[Nvidia Tegra X1|Tegra X1]] | ||
| Line 20: | Line 57: | ||
| | | | ||
| 100 megapixels | | 100 megapixels | ||
| − | | | + | | LPDDR4X quad-channel 16-bit<br />@ 1600 MHz (25.6 GB/s) |
| ´´n/a´´ | | ´´n/a´´ | ||
| − | | Erista / Mariko | + | | T210 (Erista)<br />T214 (Mariko) |
| − | | "20/16 nm"<br />TSMC | + | | "20/16 nm"<br />TSMC 20SOC, 16FF |
| 2015/01<ref name="tegra x1 release">[https://developer.nvidia.com/content/tegra-x1 Tegra X1]</ref> | | 2015/01<ref name="tegra x1 release">[https://developer.nvidia.com/content/tegra-x1 Tegra X1]</ref> | ||
|- | |- | ||
| − | | [[Nvidia Tegra | + | | [[Nvidia Tegra K1|Tegra K1]] |
| | | | ||
* 5x ARM Cortex-A15 @ 2.3 GHz (T124) | * 5x ARM Cortex-A15 @ 2.3 GHz (T124) | ||
| Line 35: | Line 72: | ||
| LPDDR3 dual-channel 32-bit<br />@ 933 MHz (14.9 GB/s) | | LPDDR3 dual-channel 32-bit<br />@ 933 MHz (14.9 GB/s) | ||
| ´´n/a´´ | | ´´n/a´´ | ||
| − | | Logan | + | | T124<br />T132 (Logan) |
| "28 nm"<br />TSMC 28 HPm | | "28 nm"<br />TSMC 28 HPm | ||
| 2014/01<ref name="tegra k1 release">[https://blogs.nvidia.com/blog/2014/01/06/the-192-core-super-chip-tegra-k1-brings-serious-gaming-chops-to-mobile/ The 192-Core Super Chip, Tegra K1, Brings Serious Gaming Chops to Mobile]</ref> | | 2014/01<ref name="tegra k1 release">[https://blogs.nvidia.com/blog/2014/01/06/the-192-core-super-chip-tegra-k1-brings-serious-gaming-chops-to-mobile/ The 192-Core Super Chip, Tegra K1, Brings Serious Gaming Chops to Mobile]</ref> | ||
| Line 47: | Line 84: | ||
| LPDDR3 dual-channel 32-bit<br />@ 933 MHz (14.9 GB/s) | | LPDDR3 dual-channel 32-bit<br />@ 933 MHz (14.9 GB/s) | ||
| ´´n/a´´ | | ´´n/a´´ | ||
| − | | Wayne | + | | T114 (Wayne) |
| − | | "28 nm"<br />TSMC | + | | "28 nm"<br />TSMC 28HPL |
| 2013/01<ref name="tegra 4 release">[https://blogs.nvidia.com/blog/2013/01/09/meet-tegra-4-when-fast-just-isnt-fast-enough/ Meet Tegra 4: When Fast Just Isn’t Fast Enough]</ref> | | 2013/01<ref name="tegra 4 release">[https://blogs.nvidia.com/blog/2013/01/09/meet-tegra-4-when-fast-just-isnt-fast-enough/ Meet Tegra 4: When Fast Just Isn’t Fast Enough]</ref> | ||
|- | |- | ||
| Line 59: | Line 96: | ||
| LPDDR3 single-channel 32-bit<br />@ 933 MHz (7.5 GB/s) | | LPDDR3 single-channel 32-bit<br />@ 933 MHz (7.5 GB/s) | ||
| 4G Nvidia i500 (150 / 50 mbps) | | 4G Nvidia i500 (150 / 50 mbps) | ||
| − | | Grey | + | | T148 (Grey) |
| "28 nm"<br />TSMC 28 HPm | | "28 nm"<br />TSMC 28 HPm | ||
| 2013/02<ref name="tegra 4i release">[http://blogs.nvidia.com/blog/2013/02/19/quad-core-processor-with-lte-in-just-20-months/ Two Modems, 20 Months]</ref> | | 2013/02<ref name="tegra 4i release">[http://blogs.nvidia.com/blog/2013/02/19/quad-core-processor-with-lte-in-just-20-months/ Two Modems, 20 Months]</ref> | ||
| Line 66: | Line 103: | ||
| | | | ||
* 5x ARM Cortex-A9 @ 1.7 GHz | * 5x ARM Cortex-A9 @ 1.7 GHz | ||
| − | | | + | | 12x Nvidia VEC4 @ 620 MHz |
| | | | ||
| | | | ||
| LPDDR3 single-channel 32-bit<br />@ 800 MHz (6.4 GB/s) | | LPDDR3 single-channel 32-bit<br />@ 800 MHz (6.4 GB/s) | ||
| ´´n/a´´ | | ´´n/a´´ | ||
| − | | Kal-El | + | | T30, T30L, T33, AP33 (Kal-El) |
| "40 nm"<br />TSMC 40LPG | | "40 nm"<br />TSMC 40LPG | ||
| 2011/11<ref name="tegra 3 release">[https://nvidianews.nvidia.com/news/nvidia-quad-core-tegra-3-chip-sets-new-standards-of-mobile-computing-performance-energy-efficiency NVIDIA Quad-Core Tegra 3 Chip Sets New Standards of Mobile Computing Performance, Energy Efficiency]</ref> | | 2011/11<ref name="tegra 3 release">[https://nvidianews.nvidia.com/news/nvidia-quad-core-tegra-3-chip-sets-new-standards-of-mobile-computing-performance-energy-efficiency NVIDIA Quad-Core Tegra 3 Chip Sets New Standards of Mobile Computing Performance, Energy Efficiency]</ref> | ||
| Line 78: | Line 115: | ||
| | | | ||
* 2x ARM Cortex-A9 @ 1.2 GHz | * 2x ARM Cortex-A9 @ 1.2 GHz | ||
| − | | | + | | 8x Nvidia VEC4 @ 400 MHz |
| − | |||
| | | | ||
| + | | 12 megapixels | ||
| LPDDR2 single-channel 32-bit<br />@ 300 MHz (2.4 GB/s) | | LPDDR2 single-channel 32-bit<br />@ 300 MHz (2.4 GB/s) | ||
| ´´n/a´´ | | ´´n/a´´ | ||
| − | | | + | | AP20H (Ventana)<br />T20 (Harmony) |
| "40 nm" | | "40 nm" | ||
| 2011/01<ref name="tegra 2 release">[https://nvidianews.nvidia.com/news/nvidia-tegra-super-chip-kicks-up-next-wave-of-super-phones NVIDIA Tegra Super Chip Kicks Up Next Wave of Super Phones]</ref> | | 2011/01<ref name="tegra 2 release">[https://nvidianews.nvidia.com/news/nvidia-tegra-super-chip-kicks-up-next-wave-of-super-phones NVIDIA Tegra Super Chip Kicks Up Next Wave of Super Phones]</ref> | ||
|- | |- | ||
| − | | [[Nvidia Tegra | + | | [[Nvidia Tegra|Tegra]] |
| | | | ||
* 1x ARM ARM11 @ 800 MHz | * 1x ARM ARM11 @ 800 MHz | ||
| Line 95: | Line 132: | ||
| DDR single-channel 32-bit<br />@ 200 MHz (1.6 GB/s) | | DDR single-channel 32-bit<br />@ 200 MHz (1.6 GB/s) | ||
| ´´n/a´´ | | ´´n/a´´ | ||
| − | | | + | | APX 2500<br />APX 2600<br />Tegra 600<br />Tegra 650 |
| | | | ||
| 2008/02<ref name="tegra 1 release">[https://hothardware.com/news/nvidia-introduces-apx-2500 NVIDIA Introduces APX 2500 — The World's Lowest Power, High-Definition Computer on a Chip]</ref> | | 2008/02<ref name="tegra 1 release">[https://hothardware.com/news/nvidia-introduces-apx-2500 NVIDIA Introduces APX 2500 — The World's Lowest Power, High-Definition Computer on a Chip]</ref> | ||
Latest revision as of 08:43, 10 March 2021
Mobile
| Model | CPU[1] | GPU[2] | DSP[3] | ISP[4] | RAM | Modem | Catalog number | Lithography | Announced |
|---|---|---|---|---|---|---|---|---|---|
| Tegra Orin |
|
2024x Nvidia Ampere (GA) | (200 TOPS) | LPDDR5 | ´´n/a´´ | T234 (Orin) | 2019/12[5] | ||
| Tegra Xavier |
|
(1.4 TFLOPS) 512x Nvidia Volta (GV10B) @ 1377 MHz |
(30 TOPS) | LPDDR4x octa-channel 32-bit @ 2133 MHz (137 GB/s) |
´´n/a´´ | T194 (Xavier) | "12 nm" TSMC 12FFN |
2016/09[6] | |
| Tegra X2 |
|
256x Nvidia Pascal (GP10B) @ 1465 MHz | LPDDR4 quad-channel 32-bit @ 1866 MHz (58.4 GB/s) |
´´n/a´´ | T186 (Parker) | "16 nm" TSMC 16FF |
2016/08[7] | ||
| Tegra X1 |
|
256x Nvidia Maxwell (GM20B) @ 1000 MHz (T210) 256x Nvidia Maxwell (GM20B) @ 1267 MHz (T214) |
100 megapixels | LPDDR4X quad-channel 16-bit @ 1600 MHz (25.6 GB/s) |
´´n/a´´ | T210 (Erista) T214 (Mariko) |
"20/16 nm" TSMC 20SOC, 16FF |
2015/01[8] | |
| Tegra K1 |
|
192x Nvidia Kepler (GK20A) @ 951 MHz | 100 megapixels | LPDDR3 dual-channel 32-bit @ 933 MHz (14.9 GB/s) |
´´n/a´´ | T124 T132 (Logan) |
"28 nm" TSMC 28 HPm |
2014/01[9] | |
| Tegra 4 |
|
72x Nvidia VEC4 @ 672 MHz | LPDDR3 dual-channel 32-bit @ 933 MHz (14.9 GB/s) |
´´n/a´´ | T114 (Wayne) | "28 nm" TSMC 28HPL |
2013/01[10] | ||
| Tegra 4i |
|
60x Nvidia VEC4 @ 660 MHz | LPDDR3 single-channel 32-bit @ 933 MHz (7.5 GB/s) |
4G Nvidia i500 (150 / 50 mbps) | T148 (Grey) | "28 nm" TSMC 28 HPm |
2013/02[11] | ||
| Tegra 3 |
|
12x Nvidia VEC4 @ 620 MHz | LPDDR3 single-channel 32-bit @ 800 MHz (6.4 GB/s) |
´´n/a´´ | T30, T30L, T33, AP33 (Kal-El) | "40 nm" TSMC 40LPG |
2011/11[12] | ||
| Tegra 2 |
|
8x Nvidia VEC4 @ 400 MHz | 12 megapixels | LPDDR2 single-channel 32-bit @ 300 MHz (2.4 GB/s) |
´´n/a´´ | AP20H (Ventana) T20 (Harmony) |
"40 nm" | 2011/01[13] | |
| Tegra |
|
Nvidia GeForce ULP | 12 megapixels | DDR single-channel 32-bit @ 200 MHz (1.6 GB/s) |
´´n/a´´ | APX 2500 APX 2600 Tegra 600 Tegra 650 |
2008/02[14] | ||
| Model | CPU | GPU | DSP | ISP | RAM | Modem | Catalog name | Lithography | Announced |
See also
References
- ↑ Central Processing Unit.
- ↑ Graphics Processing Unit, responsible for displaying graphics and text on the device screen.
- ↑ Digital Signal Processor, responsible for measuring, filtering and compressing analog signals.
- ↑ Image Signal Processor, responsible for processing the images captured by the camera.
- ↑ NVIDIA Introduces DRIVE AGX Orin — Advanced, Software-Defined Platform for Autonomous Machines
- ↑ Introducing Xavier, the NVIDIA AI Supercomputer for the Future of Autonomous Transportation
- ↑ Get Under the Hood of Parker, Our Newest SOC for Autonomous Vehicles
- ↑ Tegra X1
- ↑ The 192-Core Super Chip, Tegra K1, Brings Serious Gaming Chops to Mobile
- ↑ Meet Tegra 4: When Fast Just Isn’t Fast Enough
- ↑ Two Modems, 20 Months
- ↑ NVIDIA Quad-Core Tegra 3 Chip Sets New Standards of Mobile Computing Performance, Energy Efficiency
- ↑ NVIDIA Tegra Super Chip Kicks Up Next Wave of Super Phones
- ↑ NVIDIA Introduces APX 2500 — The World's Lowest Power, High-Definition Computer on a Chip
| Nvidia processors [e] | |
|---|---|
| Mobile / automotive | |
| Latest processors | |
[e]
| |