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Difference between revisions of "amd/microarchitectures/zen 3"
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=== Key changes from {{\\|Zen 2}} === | === Key changes from {{\\|Zen 2}} === | ||
| − | + | * CCD | |
| − | * | + | ** Unified 8-core CCX (from 2x 4-Core CCX per CCD) |
| − | * Unified 8-core CCX | + | ** 32 MiB L3$ available equally to all cores in CCD. |
| − | * Integer unit: | + | *** Increased L3 latency (~46 cycles, up from ~40 cycles) |
| − | ** Integer physical register file increased from 180 to 192 entries | + | * Core |
| − | ** Issue increased from 7 (existing 4 ALU and 3 AGU) to 10 with 1 new dedicated branch execution port and 2 separated store data pathways. | + | ** Higher [[IPC]] (AMD self-reported +19% IPC) |
| − | ** Schedulers shared between pairs of ALU + AGU/branch ports instead of dedicated for each. | + | ** Front-end |
| − | ** Instruction redundancy increased between ports for reduced bottlenecking on a wider variety of instruction streams. | + | ** Increased branch prediction bandwidth |
| − | ** 8/16/32/64 bit signed integer division/modulo latency improved from 17/22/30/46 cycles to 10/12/14/20. (Unsigned operations are ~1 cycle faster for some of both old/new cases.) Throughput improves proportionately. | + | *** "zero-bubble" branch prediction |
| − | * | + | *** L1 BTB doubled from 512 to 1024 entries |
| − | + | ** Improved prefetching | |
| − | + | ** Improved µop cache | |
| − | + | * Back-end | |
| − | + | ** Floating point unit: | |
| − | + | *** FMA latency reduced by 1 cycle from 5 to 4. | |
| − | * Load/store: | + | *** Fifth and sixth dedicated execution ports added for floating point store and FP-to-int transfer, no longer sharing 2nd FADD port. |
| − | ** Load throughput increased from 2 to 3, if not 256b. | + | *** Unified scheduler split into 1 scheduler per FMA/FADD/transfer port set. |
| − | ** Store throughput increased from 1 to 2, if not 256b. | + | *** 256b VAES and VPCLMULDQ support for doubled AES and AES-GCM cryptographic throughout. |
| − | ** Store queue increase from 48 to 64 slots. | + | *** Hardware implementation of BMI2 PDEP/PEXT bit scatter/gather operations, compared to prior microcode emulation. |
| − | ** Page table walkers tripled from 2 to 6 for TLB miss handling. | + | ** Integer unit: |
| − | + | *** Integer physical register file increased from 180 to 192 entries | |
| − | + | *** Issue increased from 7 (existing 4 ALU and 3 AGU) to 10 with 1 new dedicated branch execution port and 2 separated store data pathways. | |
| − | + | *** Schedulers shared between pairs of ALU + AGU/branch ports instead of dedicated for each. | |
| − | + | *** Instruction redundancy increased between ports for reduced bottlenecking on a wider variety of instruction streams. | |
| − | + | *** 8/16/32/64 bit signed integer division/modulo latency improved from 17/22/30/46 cycles to 10/12/14/20. (Unsigned operations are ~1 cycle faster for some of both old/new cases.) Throughput improves proportionately. | |
| + | ** Load/store: | ||
| + | *** Load throughput increased from 2 to 3, if not 256b. | ||
| + | *** Store throughput increased from 1 to 2, if not 256b. | ||
| + | *** Store queue increase from 48 to 64 slots. | ||
| + | *** Page table walkers tripled from 2 to 6 for TLB miss handling. | ||
{{expand list}} | {{expand list}} | ||
Revision as of 23:12, 25 March 2021
| Edit Values | |
| Zen 3 µarch | |
| General Info | |
| Arch Type | CPU |
| Designer | AMD |
| Manufacturer | TSMC, GlobalFoundries |
| Introduction | October 8, 2020 |
| Process | 7nm |
| Core Configs | 64, 48, 32, 16, 12, 8, 6 |
| Pipeline | |
| Type | Superscalar |
| OoOE | Yes |
| Speculative | Yes |
| Reg Renaming | Yes |
| Stages | 19 |
| Decode | 4-way |
| Instructions | |
| ISA | x86-64 |
| Extensions | MOVBE, MMX, SSE, SSE2, SSE3, SSSE3, SSE4A, SSE4.1, SSE4.2, POPCNT, AVX, AVX2, AES, PCLMUL, FSGSBASE, RDRND, FMA3, F16C, BMI, BMI2, RDSEED, ADCX, PREFETCHW, CLFLUSHOPT, XSAVE, SHA, UMIP, CLZERO |
| Succession | |
Zen 3 is a microarchitecture developed by AMD as a successor to Zen 2. It was publicly released on October 8, 2020. Mainstream Desktop processors hit shelves on November 5, 2020.
Contents
History
Zen 3 was formally disclosed in a roadmap by Lisa Su, AMD's CEO, during AMD's Tech Day in February of 2017. Zen 3 will be the 3rd iteration of the Zen microarchitecture. On Investor's Day in May 2017 Jim Anderson, AMD Senior Vice President, confirmed that Zen 3 is set to utilize 7nm+ process.
Codenames
 |
Preliminary Data! Information presented in this article deal with future products, data, features, and specifications that have yet to be finalized, announced, or released. Information may be incomplete and can change by final release. |
| Core | C/T | Target |
|---|---|---|
| Milan | Up to 64/128 | High-end server multiprocessors |
| Genesis Peak | ?/? | Workstation & enthusiasts market processors |
| Vermeer | Up to 16/32 | Mainstream to high-end desktops & enthusiasts market processors |
| Cezanne | Up to 8/16 | Mainstream desktop & mobile processors with GPU |
Process technology
Zen 3 will be fabricated on TSMC's 7nm+ process, the same process used in Zen 2 Refresh processors.
Architecture
There is very limited information available about the architectural improvements of Zen 3.
Key changes from Zen 2
- CCD
- Unified 8-core CCX (from 2x 4-Core CCX per CCD)
- 32 MiB L3$ available equally to all cores in CCD.
- Increased L3 latency (~46 cycles, up from ~40 cycles)
- Core
- Higher IPC (AMD self-reported +19% IPC)
- Front-end
- Increased branch prediction bandwidth
- "zero-bubble" branch prediction
- L1 BTB doubled from 512 to 1024 entries
- Improved prefetching
- Improved µop cache
- Back-end
- Floating point unit:
- FMA latency reduced by 1 cycle from 5 to 4.
- Fifth and sixth dedicated execution ports added for floating point store and FP-to-int transfer, no longer sharing 2nd FADD port.
- Unified scheduler split into 1 scheduler per FMA/FADD/transfer port set.
- 256b VAES and VPCLMULDQ support for doubled AES and AES-GCM cryptographic throughout.
- Hardware implementation of BMI2 PDEP/PEXT bit scatter/gather operations, compared to prior microcode emulation.
- Integer unit:
- Integer physical register file increased from 180 to 192 entries
- Issue increased from 7 (existing 4 ALU and 3 AGU) to 10 with 1 new dedicated branch execution port and 2 separated store data pathways.
- Schedulers shared between pairs of ALU + AGU/branch ports instead of dedicated for each.
- Instruction redundancy increased between ports for reduced bottlenecking on a wider variety of instruction streams.
- 8/16/32/64 bit signed integer division/modulo latency improved from 17/22/30/46 cycles to 10/12/14/20. (Unsigned operations are ~1 cycle faster for some of both old/new cases.) Throughput improves proportionately.
- Load/store:
- Load throughput increased from 2 to 3, if not 256b.
- Store throughput increased from 1 to 2, if not 256b.
- Store queue increase from 48 to 64 slots.
- Page table walkers tripled from 2 to 6 for TLB miss handling.
- Floating point unit:
This list is incomplete; you can help by expanding it.
All Zen 3 Chips
| List of all Zen 3-based Processors | |||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Processor | Features | ||||||||||||||||||||||||
| Model | Price | Process | Launched | Family | Core | C | T | TDP | L3 | Base | Turbo | Max Mem | SMT | SEV | SME | TSME | |||||||||
| Uniprocessors | |||||||||||||||||||||||||
| 7313P | $ 913.00 € 821.70 £ 739.53 ¥ 94,340.29 | 15 March 2021 | EPYC | Milan | 16 | 32 | 155 W 155,000 mW 0.208 hp 0.155 kW | 128 MiB 131,072 KiB 134,217,728 B 0.125 GiB | 3 GHz 3,000 MHz 3,000,000 kHz | 3.7 GHz 3,700 MHz 3,700,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7443P | $ 1,337.00 € 1,203.30 £ 1,082.97 ¥ 138,152.21 | 15 March 2021 | EPYC | Milan | 24 | 48 | 200 W 200,000 mW 0.268 hp 0.2 kW | 128 MiB 131,072 KiB 134,217,728 B 0.125 GiB | 2.85 GHz 2,850 MHz 2,850,000 kHz | 4 GHz 4,000 MHz 4,000,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7543P | $ 2,730.00 € 2,457.00 £ 2,211.30 ¥ 282,090.90 | 15 March 2021 | EPYC | Milan | 32 | 64 | 225 W 225,000 mW 0.302 hp 0.225 kW | 256 MiB 262,144 KiB 268,435,456 B 0.25 GiB | 2.8 GHz 2,800 MHz 2,800,000 kHz | 3.7 GHz 3,700 MHz 3,700,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7713P | $ 5,010.00 € 4,509.00 £ 4,058.10 ¥ 517,683.30 | 15 March 2021 | EPYC | Milan | 64 | 128 | 225 W 225,000 mW 0.302 hp 0.225 kW | 256 MiB 262,144 KiB 268,435,456 B 0.25 GiB | 2 GHz 2,000 MHz 2,000,000 kHz | 3.675 GHz 3,675 MHz 3,675,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 5300G | 7 nm 0.007 μm 7.0e-6 mm | 13 April 2021 | Ryzen 3 | Cezanne | 4 | 8 | 65 W 65,000 mW 0.0872 hp 0.065 kW | 8 MiB 8,192 KiB 8,388,608 B 0.00781 GiB | 4 GHz 4,000 MHz 4,000,000 kHz | 4.2 GHz 4,200 MHz 4,200,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| 5300GE | 7 nm 0.007 μm 7.0e-6 mm | 13 April 2021 | Ryzen 3 | Cezanne | 4 | 8 | 35 W 35,000 mW 0.0469 hp 0.035 kW | 8 MiB 8,192 KiB 8,388,608 B 0.00781 GiB | 3.6 GHz 3,600 MHz 3,600,000 kHz | 4.2 GHz 4,200 MHz 4,200,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| 5400U | 7 nm 0.007 μm 7.0e-6 mm | 12 January 2021 | Ryzen 3 | Cezanne | 4 | 8 | 15 W 15,000 mW 0.0201 hp 0.015 kW | 8 MiB 8,192 KiB 8,388,608 B 0.00781 GiB | 2.6 GHz 2,600 MHz 2,600,000 kHz | 4 GHz 4,000 MHz 4,000,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| PRO 5350G | 7 nm 0.007 μm 7.0e-6 mm | 1 June 2021 | Ryzen 3 | Cezanne | 4 | 8 | 65 W 65,000 mW 0.0872 hp 0.065 kW | 8 MiB 8,192 KiB 8,388,608 B 0.00781 GiB | 4 GHz 4,000 MHz 4,000,000 kHz | 4.2 GHz 4,200 MHz 4,200,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| PRO 5350GE | 7 nm 0.007 μm 7.0e-6 mm | 1 June 2021 | Ryzen 3 | Cezanne | 4 | 8 | 35 W 35,000 mW 0.0469 hp 0.035 kW | 8 MiB 8,192 KiB 8,388,608 B 0.00781 GiB | 3.6 GHz 3,600 MHz 3,600,000 kHz | 4.2 GHz 4,200 MHz 4,200,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| PRO 5450U | 7 nm 0.007 μm 7.0e-6 mm | 16 March 2021 | Ryzen 3 | Cezanne | 4 | 8 | 15 W 15,000 mW 0.0201 hp 0.015 kW | 8 MiB 8,192 KiB 8,388,608 B 0.00781 GiB | 2.6 GHz 2,600 MHz 2,600,000 kHz | 4 GHz 4,000 MHz 4,000,000 kHz | ✔ | ✘ | ✘ | ✔ | |||||||||||
| 5600G | $ 259.00 € 233.10 £ 209.79 ¥ 26,762.47 | 7 nm 0.007 μm 7.0e-6 mm | 13 April 2021 | Ryzen 5 | Cezanne | 6 | 12 | 65 W 65,000 mW 0.0872 hp 0.065 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3.9 GHz 3,900 MHz 3,900,000 kHz | 4.4 GHz 4,400 MHz 4,400,000 kHz | ✔ | ✘ | ✘ | ✘ | ||||||||||
| 5600GE | 7 nm 0.007 μm 7.0e-6 mm | 13 April 2021 | Ryzen 5 | Cezanne | 6 | 12 | 35 W 35,000 mW 0.0469 hp 0.035 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3.4 GHz 3,400 MHz 3,400,000 kHz | 4.4 GHz 4,400 MHz 4,400,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| 5600H | 7 nm 0.007 μm 7.0e-6 mm | 12 January 2021 | Ryzen 5 | Cezanne | 6 | 12 | 45 W 45,000 mW 0.0603 hp 0.045 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3.3 GHz 3,300 MHz 3,300,000 kHz | 4.2 GHz 4,200 MHz 4,200,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| 5600HS | 7 nm 0.007 μm 7.0e-6 mm | 12 January 2021 | Ryzen 5 | Cezanne | 6 | 12 | 35 W 35,000 mW 0.0469 hp 0.035 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3 GHz 3,000 MHz 3,000,000 kHz | 4.2 GHz 4,200 MHz 4,200,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| 5600U | 7 nm 0.007 μm 7.0e-6 mm | 12 January 2021 | Ryzen 5 | Cezanne | 6 | 12 | 15 W 15,000 mW 0.0201 hp 0.015 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 2.3 GHz 2,300 MHz 2,300,000 kHz | 4.2 GHz 4,200 MHz 4,200,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| 5600X | $ 299.00 € 269.10 £ 242.19 ¥ 30,895.67 | 7 nm 0.007 μm , 12 nm7.0e-6 mm 0.012 μm 1.2e-5 mm | 5 November 2020 | Ryzen 5 | Vermeer | 6 | 12 | 65 W 65,000 mW 0.0872 hp 0.065 kW | 32 MiB 32,768 KiB 33,554,432 B 0.0313 GiB | 3.7 GHz 3,700 MHz 3,700,000 kHz | 4.6 GHz 4,600 MHz 4,600,000 kHz | 128 GiB 131,072 MiB 134,217,728 KiB 137,438,953,472 B 0.125 TiB | ✔ | ✘ | ✘ | ✘ | |||||||||
| PRO 5650G | 7 nm 0.007 μm 7.0e-6 mm | 1 June 2021 | Ryzen 5 | Cezanne | 6 | 12 | 65 W 65,000 mW 0.0872 hp 0.065 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3.9 GHz 3,900 MHz 3,900,000 kHz | 4.4 GHz 4,400 MHz 4,400,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| PRO 5650GE | 7 nm 0.007 μm 7.0e-6 mm | 1 June 2021 | Ryzen 5 | Cezanne | 6 | 12 | 35 W 35,000 mW 0.0469 hp 0.035 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3.4 GHz 3,400 MHz 3,400,000 kHz | 4.4 GHz 4,400 MHz 4,400,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| PRO 5650U | 7 nm 0.007 μm 7.0e-6 mm | 16 March 2021 | Ryzen 5 | Cezanne | 6 | 12 | 15 W 15,000 mW 0.0201 hp 0.015 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 2.3 GHz 2,300 MHz 2,300,000 kHz | 4.2 GHz 4,200 MHz 4,200,000 kHz | ✔ | ✘ | ✘ | ✔ | |||||||||||
| 5700G | $ 359.00 € 323.10 £ 290.79 ¥ 37,095.47 | 7 nm 0.007 μm 7.0e-6 mm | 13 April 2021 | Ryzen 7 | Cezanne | 8 | 16 | 65 W 65,000 mW 0.0872 hp 0.065 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3.8 GHz 3,800 MHz 3,800,000 kHz | 4.6 GHz 4,600 MHz 4,600,000 kHz | ✔ | ✘ | ✘ | ✘ | ||||||||||
| 5700GE | 7 nm 0.007 μm 7.0e-6 mm | 13 April 2021 | Ryzen 7 | Cezanne | 8 | 16 | 35 W 35,000 mW 0.0469 hp 0.035 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3.2 GHz 3,200 MHz 3,200,000 kHz | 4.6 GHz 4,600 MHz 4,600,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| 5800 | 7 nm 0.007 μm , 12 nm7.0e-6 mm 0.012 μm 1.2e-5 mm | 12 January 2021 | Ryzen 7 | Vermeer | 8 | 16 | 65 W 65,000 mW 0.0872 hp 0.065 kW | 32 MiB 32,768 KiB 33,554,432 B 0.0313 GiB | 3.4 GHz 3,400 MHz 3,400,000 kHz | 4.6 GHz 4,600 MHz 4,600,000 kHz | 128 GiB 131,072 MiB 134,217,728 KiB 137,438,953,472 B 0.125 TiB | ✔ | ✘ | ✘ | ✘ | ||||||||||
| 5800H | 7 nm 0.007 μm 7.0e-6 mm | 12 January 2021 | Ryzen 7 | Cezanne | 8 | 16 | 45 W 45,000 mW 0.0603 hp 0.045 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3.2 GHz 3,200 MHz 3,200,000 kHz | 4.4 GHz 4,400 MHz 4,400,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| 5800HS | 7 nm 0.007 μm 7.0e-6 mm | 12 January 2021 | Ryzen 7 | Cezanne | 8 | 16 | 35 W 35,000 mW 0.0469 hp 0.035 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 2.8 GHz 2,800 MHz 2,800,000 kHz | 4.4 GHz 4,400 MHz 4,400,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| 5800U | 7 nm 0.007 μm 7.0e-6 mm | 12 January 2021 | Ryzen 7 | Cezanne | 8 | 16 | 15 W 15,000 mW 0.0201 hp 0.015 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 1.9 GHz 1,900 MHz 1,900,000 kHz | 4.4 GHz 4,400 MHz 4,400,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| 5800X | $ 449.00 € 404.10 £ 363.69 ¥ 46,395.17 | 7 nm 0.007 μm , 12 nm7.0e-6 mm 0.012 μm 1.2e-5 mm | 5 November 2020 | Ryzen 7 | Vermeer | 8 | 16 | 105 W 105,000 mW 0.141 hp 0.105 kW | 32 MiB 32,768 KiB 33,554,432 B 0.0313 GiB | 3.8 GHz 3,800 MHz 3,800,000 kHz | 4.7 GHz 4,700 MHz 4,700,000 kHz | 128 GiB 131,072 MiB 134,217,728 KiB 137,438,953,472 B 0.125 TiB | ✔ | ✘ | ✘ | ✘ | |||||||||
| 5800X3D | $ 449.00 € 404.10 £ 363.69 ¥ 46,395.17 | 7 nm 0.007 μm , 12 nm7.0e-6 mm 0.012 μm 1.2e-5 mm | 20 April 2022 | Ryzen 7 | Vermeer | 8 | 16 | 105 W 105,000 mW 0.141 hp 0.105 kW | 96 MiB 98,304 KiB 100,663,296 B 0.0938 GiB | 3.4 GHz 3,400 MHz 3,400,000 kHz | 4.5 GHz 4,500 MHz 4,500,000 kHz | 128 GiB 131,072 MiB 134,217,728 KiB 137,438,953,472 B 0.125 TiB | ✘ | ✘ | ✘ | ✘ | |||||||||
| PRO 5750G | 7 nm 0.007 μm 7.0e-6 mm | 1 June 2021 | Ryzen 7 | Cezanne | 8 | 16 | 65 W 65,000 mW 0.0872 hp 0.065 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3.8 GHz 3,800 MHz 3,800,000 kHz | 4.6 GHz 4,600 MHz 4,600,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| PRO 5750GE | 7 nm 0.007 μm 7.0e-6 mm | 1 June 2021 | Ryzen 7 | Cezanne | 8 | 16 | 35 W 35,000 mW 0.0469 hp 0.035 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3.2 GHz 3,200 MHz 3,200,000 kHz | 4.6 GHz 4,600 MHz 4,600,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| PRO 5850U | 7 nm 0.007 μm 7.0e-6 mm | 16 March 2021 | Ryzen 7 | Cezanne | 8 | 16 | 15 W 15,000 mW 0.0201 hp 0.015 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 1.9 GHz 1,900 MHz 1,900,000 kHz | 4.4 GHz 4,400 MHz 4,400,000 kHz | ✔ | ✘ | ✘ | ✔ | |||||||||||
| 5900 | 7 nm 0.007 μm , 12 nm7.0e-6 mm 0.012 μm 1.2e-5 mm | 12 January 2021 | Ryzen 9 | Vermeer | 12 | 24 | 65 W 65,000 mW 0.0872 hp 0.065 kW | 64 MiB 65,536 KiB 67,108,864 B 0.0625 GiB | 3 GHz 3,000 MHz 3,000,000 kHz | 4.7 GHz 4,700 MHz 4,700,000 kHz | 128 GiB 131,072 MiB 134,217,728 KiB 137,438,953,472 B 0.125 TiB | ✔ | ✘ | ✘ | ✘ | ||||||||||
| 5900HS | 7 nm 0.007 μm 7.0e-6 mm | 12 January 2021 | Ryzen 9 | Cezanne | 8 | 16 | 35 W 35,000 mW 0.0469 hp 0.035 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3 GHz 3,000 MHz 3,000,000 kHz | 4.6 GHz 4,600 MHz 4,600,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| 5900HX | 7 nm 0.007 μm 7.0e-6 mm | 12 January 2021 | Ryzen 9 | Cezanne | 8 | 16 | 45 W 45,000 mW 0.0603 hp 0.045 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3.3 GHz 3,300 MHz 3,300,000 kHz | 4.6 GHz 4,600 MHz 4,600,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| 5900X | $ 549.00 € 494.10 £ 444.69 ¥ 56,728.17 | 7 nm 0.007 μm , 12 nm7.0e-6 mm 0.012 μm 1.2e-5 mm | 5 November 2020 | Ryzen 9 | Vermeer | 12 | 24 | 105 W 105,000 mW 0.141 hp 0.105 kW | 64 MiB 65,536 KiB 67,108,864 B 0.0625 GiB | 3.7 GHz 3,700 MHz 3,700,000 kHz | 4.8 GHz 4,800 MHz 4,800,000 kHz | 128 GiB 131,072 MiB 134,217,728 KiB 137,438,953,472 B 0.125 TiB | ✔ | ✘ | ✘ | ✘ | |||||||||
| 5950X | $ 799.00 € 719.10 £ 647.19 ¥ 82,560.67 | 7 nm 0.007 μm , 12 nm7.0e-6 mm 0.012 μm 1.2e-5 mm | 5 November 2020 | Ryzen 9 | Vermeer | 16 | 32 | 105 W 105,000 mW 0.141 hp 0.105 kW | 64 MiB 65,536 KiB 67,108,864 B 0.0625 GiB | 3.4 GHz 3,400 MHz 3,400,000 kHz | 4.9 GHz 4,900 MHz 4,900,000 kHz | 128 GiB 131,072 MiB 134,217,728 KiB 137,438,953,472 B 0.125 TiB | ✔ | ✘ | ✘ | ✘ | |||||||||
| 5980HS | 7 nm 0.007 μm 7.0e-6 mm | 12 January 2021 | Ryzen 9 | Cezanne | 8 | 16 | 35 W 35,000 mW 0.0469 hp 0.035 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3 GHz 3,000 MHz 3,000,000 kHz | 4.8 GHz 4,800 MHz 4,800,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| 5980HX | 7 nm 0.007 μm 7.0e-6 mm | 12 January 2021 | Ryzen 9 | Cezanne | 8 | 16 | 45 W 45,000 mW 0.0603 hp 0.045 kW | 16 MiB 16,384 KiB 16,777,216 B 0.0156 GiB | 3.3 GHz 3,300 MHz 3,300,000 kHz | 4.8 GHz 4,800 MHz 4,800,000 kHz | ✔ | ✘ | ✘ | ✘ | |||||||||||
| PRO 5945WX | 7 nm 0.007 μm 7.0e-6 mm | 8 March 2022 | Ryzen Threadripper | Chagall | 12 | 24 | 280 W 280,000 mW 0.375 hp 0.28 kW | 64 MiB 65,536 KiB 67,108,864 B 0.0625 GiB | 4.1 GHz 4,100 MHz 4,100,000 kHz | 4.5 GHz 4,500 MHz 4,500,000 kHz | 2,048 GiB 2,097,152 MiB 2,147,483,648 KiB 2,199,023,255,552 B 2 TiB | ✔ | ✘ | ✘ | ✔ | ||||||||||
| PRO 5955WX | 7 nm 0.007 μm 7.0e-6 mm | 8 March 2022 | Ryzen Threadripper | Chagall | 16 | 32 | 280 W 280,000 mW 0.375 hp 0.28 kW | 64 MiB 65,536 KiB 67,108,864 B 0.0625 GiB | 4 GHz 4,000 MHz 4,000,000 kHz | 4.5 GHz 4,500 MHz 4,500,000 kHz | 2,048 GiB 2,097,152 MiB 2,147,483,648 KiB 2,199,023,255,552 B 2 TiB | ✔ | ✘ | ✘ | ✔ | ||||||||||
| PRO 5965WX | 7 nm 0.007 μm 7.0e-6 mm | 8 March 2022 | Ryzen Threadripper | Chagall | 24 | 48 | 280 W 280,000 mW 0.375 hp 0.28 kW | 128 MiB 131,072 KiB 134,217,728 B 0.125 GiB | 3.8 GHz 3,800 MHz 3,800,000 kHz | 4.5 GHz 4,500 MHz 4,500,000 kHz | 2,048 GiB 2,097,152 MiB 2,147,483,648 KiB 2,199,023,255,552 B 2 TiB | ✔ | ✘ | ✘ | ✔ | ||||||||||
| PRO 5975WX | 7 nm 0.007 μm 7.0e-6 mm | 8 March 2022 | Ryzen Threadripper | Chagall | 32 | 64 | 280 W 280,000 mW 0.375 hp 0.28 kW | 128 MiB 131,072 KiB 134,217,728 B 0.125 GiB | 3.6 GHz 3,600 MHz 3,600,000 kHz | 4.5 GHz 4,500 MHz 4,500,000 kHz | 2,048 GiB 2,097,152 MiB 2,147,483,648 KiB 2,199,023,255,552 B 2 TiB | ✔ | ✘ | ✘ | ✔ | ||||||||||
| PRO 5995WX | 7 nm 0.007 μm 7.0e-6 mm | 8 March 2022 | Ryzen Threadripper | Chagall | 64 | 128 | 280 W 280,000 mW 0.375 hp 0.28 kW | 256 MiB 262,144 KiB 268,435,456 B 0.25 GiB | 2.7 GHz 2,700 MHz 2,700,000 kHz | 4.5 GHz 4,500 MHz 4,500,000 kHz | 2,048 GiB 2,097,152 MiB 2,147,483,648 KiB 2,199,023,255,552 B 2 TiB | ✔ | ✘ | ✘ | ✔ | ||||||||||
| Multiprocessors (dual-socket) | |||||||||||||||||||||||||
| 72F3 | $ 2,468.00 € 2,221.20 £ 1,999.08 ¥ 255,018.44 | 15 March 2021 | EPYC | Milan | 8 | 16 | 180 W 180,000 mW 0.241 hp 0.18 kW | 256 MiB 262,144 KiB 268,435,456 B 0.25 GiB | 3.7 GHz 3,700 MHz 3,700,000 kHz | 4.1 GHz 4,100 MHz 4,100,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7313 | $ 1,083.00 € 974.70 £ 877.23 ¥ 111,906.39 | 15 March 2021 | EPYC | Milan | 16 | 32 | 155 W 155,000 mW 0.208 hp 0.155 kW | 128 MiB 131,072 KiB 134,217,728 B 0.125 GiB | 3 GHz 3,000 MHz 3,000,000 kHz | 3.7 GHz 3,700 MHz 3,700,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7343 | $ 1,565.00 € 1,408.50 £ 1,267.65 ¥ 161,711.45 | 15 March 2021 | EPYC | Milan | 16 | 32 | 190 W 190,000 mW 0.255 hp 0.19 kW | 128 MiB 131,072 KiB 134,217,728 B 0.125 GiB | 3.2 GHz 3,200 MHz 3,200,000 kHz | 3.9 GHz 3,900 MHz 3,900,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 73F3 | $ 3,521.00 € 3,168.90 £ 2,852.01 ¥ 363,824.93 | 15 March 2021 | EPYC | Milan | 16 | 32 | 240 W 240,000 mW 0.322 hp 0.24 kW | 256 MiB 262,144 KiB 268,435,456 B 0.25 GiB | 3.5 GHz 3,500 MHz 3,500,000 kHz | 4 GHz 4,000 MHz 4,000,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7413 | $ 1,825.00 € 1,642.50 £ 1,478.25 ¥ 188,577.25 | 15 March 2021 | EPYC | Milan | 24 | 48 | 180 W 180,000 mW 0.241 hp 0.18 kW | 128 MiB 131,072 KiB 134,217,728 B 0.125 GiB | 2.65 GHz 2,650 MHz 2,650,000 kHz | 3.6 GHz 3,600 MHz 3,600,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7443 | $ 2,010.00 € 1,809.00 £ 1,628.10 ¥ 207,693.30 | 15 March 2021 | EPYC | Milan | 24 | 48 | 200 W 200,000 mW 0.268 hp 0.2 kW | 128 MiB 131,072 KiB 134,217,728 B 0.125 GiB | 2.85 GHz 2,850 MHz 2,850,000 kHz | 4 GHz 4,000 MHz 4,000,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7453 | $ 1,570.00 € 1,413.00 £ 1,271.70 ¥ 162,228.10 | 15 March 2021 | EPYC | Milan | 28 | 56 | 225 W 225,000 mW 0.302 hp 0.225 kW | 64 MiB 65,536 KiB 67,108,864 B 0.0625 GiB | 2.75 GHz 2,750 MHz 2,750,000 kHz | 3.45 GHz 3,450 MHz 3,450,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 74F3 | $ 2,900.00 € 2,610.00 £ 2,349.00 ¥ 299,657.00 | 15 March 2021 | EPYC | Milan | 24 | 48 | 240 W 240,000 mW 0.322 hp 0.24 kW | 256 MiB 262,144 KiB 268,435,456 B 0.25 GiB | 3.2 GHz 3,200 MHz 3,200,000 kHz | 4 GHz 4,000 MHz 4,000,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7513 | $ 2,840.00 € 2,556.00 £ 2,300.40 ¥ 293,457.20 | 15 March 2021 | EPYC | Milan | 32 | 64 | 200 W 200,000 mW 0.268 hp 0.2 kW | 128 MiB 131,072 KiB 134,217,728 B 0.125 GiB | 2.6 GHz 2,600 MHz 2,600,000 kHz | 3.65 GHz 3,650 MHz 3,650,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7543 | $ 3,761.00 € 3,384.90 £ 3,046.41 ¥ 388,624.13 | 15 March 2021 | EPYC | Milan | 32 | 64 | 225 W 225,000 mW 0.302 hp 0.225 kW | 256 MiB 262,144 KiB 268,435,456 B 0.25 GiB | 2.8 GHz 2,800 MHz 2,800,000 kHz | 3.7 GHz 3,700 MHz 3,700,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 75F3 | $ 4,860.00 € 4,374.00 £ 3,936.60 ¥ 502,183.80 | 15 March 2021 | EPYC | Milan | 32 | 64 | 280 W 280,000 mW 0.375 hp 0.28 kW | 256 MiB 262,144 KiB 268,435,456 B 0.25 GiB | 2.95 GHz 2,950 MHz 2,950,000 kHz | 4 GHz 4,000 MHz 4,000,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7643 | $ 4,995.00 € 4,495.50 £ 4,045.95 ¥ 516,133.35 | 15 March 2021 | EPYC | Milan | 48 | 96 | 225 W 225,000 mW 0.302 hp 0.225 kW | 256 MiB 262,144 KiB 268,435,456 B 0.25 GiB | 2.3 GHz 2,300 MHz 2,300,000 kHz | 3.6 GHz 3,600 MHz 3,600,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7663 | $ 6,366.00 € 5,729.40 £ 5,156.46 ¥ 657,798.78 | 15 March 2021 | EPYC | Milan | 56 | 112 | 240 W 240,000 mW 0.322 hp 0.24 kW | 256 MiB 262,144 KiB 268,435,456 B 0.25 GiB | 2 GHz 2,000 MHz 2,000,000 kHz | 3.5 GHz 3,500 MHz 3,500,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7713 | $ 7,060.00 € 6,354.00 £ 5,718.60 ¥ 729,509.80 | 15 March 2021 | EPYC | Milan | 64 | 128 | 225 W 225,000 mW 0.302 hp 0.225 kW | 256 MiB 262,144 KiB 268,435,456 B 0.25 GiB | 2 GHz 2,000 MHz 2,000,000 kHz | 3.675 GHz 3,675 MHz 3,675,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| 7763 | $ 7,890.00 € 7,101.00 £ 6,390.90 ¥ 815,273.70 | 15 March 2021 | EPYC | Milan | 64 | 128 | 280 W 280,000 mW 0.375 hp 0.28 kW | 256 MiB 262,144 KiB 268,435,456 B 0.25 GiB | 2.45 GHz 2,450 MHz 2,450,000 kHz | 3.5 GHz 3,500 MHz 3,500,000 kHz | 4,096 GiB 4,194,304 MiB 4,294,967,296 KiB 4,398,046,511,104 B 4 TiB | ✔ | ✔ | ✔ | ✔ | ||||||||||
| Count: 57 | |||||||||||||||||||||||||
Designers
- Mark Evers, Chief Architect
Bibliography
- AMD 'Tech Day', February 22, 2017
- AMD 2017 Financial Analyst Day, May 16, 2017
See Also
- AMD Zen
- Intel Tigerlake
- Read also: AMD Zen 3 Ryzen Deep Dive Review
- Read here: AMD Zen 3 Reviews
Facts about "Zen 3 - Microarchitectures - AMD"
| codename | Zen 3 + |
| core count | 64 +, 48 +, 32 +, 16 +, 12 +, 8 + and 6 + |
| designer | AMD + |
| first launched | October 8, 2020 + |
| full page name | amd/microarchitectures/zen 3 + |
| instance of | microarchitecture + |
| instruction set architecture | x86-64 + |
| manufacturer | TSMC + and GlobalFoundries + |
| microarchitecture type | CPU + |
| name | Zen 3 + |
| pipeline stages | 19 + |
| process | 7 nm (0.007 μm, 7.0e-6 mm) + |