Zen 2 is a computer processor microarchitecture by AMD. It is the successor of AMD's Zen and Zen+ microarchitectures, and is fabricated on the 7 nm MOSFET node from TSMC. The microarchitecture powers the third generation of Ryzen processors, known as Ryzen 3000 for the mainstream desktop chips (codename "Matisse"), Ryzen 4000U/H (codename "Renoir") and Ryzen 5000U (codename "Lucienne") for mobile applications, as Threadripper 3000 for high-end desktop systems,[6][7] and as Ryzen 4000G for accelerated processing units (APUs). The Ryzen 3000 series CPUs were released on 7 July 2019,[8][9] while the Zen 2-based Epyc server CPUs (codename "Rome") were released on 7 August 2019.[10] An additional chip, the Ryzen 9 3950X, was released in November 2019.[8]
General information | |
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Launched | 7 July 2019[1] |
Designed by | AMD |
Common manufacturers |
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CPUID code | Family 17h |
Cache | |
L1 cache | 64 KB per core:
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L2 cache | 512 KB per core |
L3 cache | 16 MB per CCX (APU: 8 MB) |
Architecture and classification | |
Technology node | TSMC N7[2][3] TSMC N6[4] |
Instruction set | AMD64 (x86-64) |
Physical specifications | |
Transistors |
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Cores |
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Sockets | |
Products, models, variants | |
Product code names |
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Brand names | |
History | |
Predecessor | Zen+ |
Successor | Zen 3 |
Support status | |
Supported |
At CES 2019, AMD showed a Ryzen third-generation engineering sample that contained one chiplet with eight cores and 16 threads.[6] AMD CEO Lisa Su also said to expect more than eight cores in the final lineup.[11] At Computex 2019, AMD revealed that the Zen 2 "Matisse" processors would feature up to 12 cores, and a few weeks later a 16 core processor was also revealed at E3 2019, being the aforementioned Ryzen 9 3950X.[12][13]
Zen 2 includes hardware mitigations to the Spectre security vulnerability.[14] Zen 2-based EPYC server CPUs use a design in which multiple CPU dies (up to eight in total) manufactured on a 7 nm process ("chiplets") are combined with a 14nm I/O die (as opposed to the 12nm IOD on Matisse variants) on each multi-chip module (MCM) package. Using this, up to 64 physical cores and 128 total compute threads (with simultaneous multithreading) are supported per socket. This architecture is nearly identical to the layout of the "pro-consumer" flagship processor Threadripper 3990X.[15] Zen 2 delivers about 15% more instructions per clock than Zen and Zen+,[16][17] the 14- and 12-nm microarchitectures utilized on first and second generation Ryzen, respectively.
The Steam Deck,[18][19] PlayStation 5, Xbox Series X and Series S all use chips based on the Zen 2 microarchitecture, with proprietary tweaks and different configurations in each system's implementation than AMD sells in its own commercially available APUs.[20][21]
Design
editZen 2 is a significant departure from the physical design paradigm of AMD's previous Zen architectures, Zen and Zen+. Zen 2 moves to a multi-chip module design where the I/O components of the CPU are laid out on its own die which is separate from the dies containing processor cores, which are also called chiplets in this context. This separation has benefits in scalability and manufacturability. As physical interfaces don't scale very well with shrinks in process technology, their separation into a different die allows these components to be manufactured using a larger, more mature process node than the CPU dies. The CPU dies (referred to by AMD as core complex dies or CCDs), now more compact due to the move of I/O components onto another die, can be manufactured using a smaller process with fewer manufacturing defects than a larger die would exhibit (since the chances of a die having a defect increases with device (die) size) while also allowing for more dies per wafer. In addition, the central I/O die can service multiple chiplets, making it easier to construct processors with a large number of cores.[15][22][23]
With Zen 2, each CPU chiplet houses 8 CPU cores, arranged in 2 core complexes (CCXs), each of 4 CPU cores. These chiplets are manufactured using TSMC's 7 nanometer MOSFET node and are about 74 to 80 mm2 in size.[22] The chiplet has about 3.8 billion transistors, while the 12 nm I/O die (IOD) is ~125 mm2 and has 2.09 billion transistors.[24] The amount of L3 cache has been doubled to 32 MB, with each CCX in the chiplet now having access to 16 MB of L3 compared to the 8 MB of Zen and Zen+.[25] AVX2 performance is greatly improved by an increase in execution unit width from 128-bit to 256-bit.[26] There are multiple variants of the I/O die: one manufactured on GlobalFoundries 14 nanometer process, and another manufactured using the same company's 12 nanometer process. The 14 nanometer dies have more features and are used for the EPYC Rome processors, whereas the 12 nm versions are used for consumer processors.[22] Both processes have similar feature sizes, so their transistor density is also similar.[27]
AMD's Zen 2 architecture can deliver higher performance at a lower power consumption than Intel's Cascade Lake architecture, with an example being the AMD Ryzen Threadripper 3970X running with a TDP of 140 W in ECO mode delivering higher performance than the Intel Core i9-10980XE running with a TDP of 165 W.[28]
New features
edit- Some new instruction set extensions: WBNOINVD, CLWB, RDPID, RDPRU, MCOMMIT. Each instruction uses its own CPUID bit.[29][30]
- Hardware mitigations against the Spectre V4 speculative store bypass vulnerability.[31]
- Zero-latency memory mirroring optimization (undocumented).[32]
- Doubled width of the execution units and load store units (from 128-bit to 256-bit) in the floating point coprocessor and significant further throughput enhancements in the multiplication execution unit. This allows the FPU to perform single-cycle AVX2 calculations.[33]
Feature tables
editCPUs
editThis section is empty. You can help by adding to it. (March 2023) |
APUs
editProducts
editOn 26 May 2019, AMD announced six Zen 2-based desktop Ryzen processors (codenamed "Matisse"). These included 6-core and 8-core variants in the Ryzen 5 and Ryzen 7 product lines, as well as a new Ryzen 9 line that includes the company's first 12-core and 16-core mainstream desktop processors. [34]
The Matisse I/O die is also used as the X570 chipset.
AMD's second generation of Epyc processors, codenamed "Rome", feature up to 64 cores, and were launched on 7 August 2019.[10]
Desktop CPUs
edit3000 series (Matisse)
editCommon features of Ryzen 3000 desktop CPUs:
- Socket: AM4.
- All the CPUs support DDR4-3200 in dual-channel mode.
- L1 cache: 64 KB (32 KB data + 32 KB instruction) per core.
- L2 cache: 512 KB per core.
- All the CPUs support 24 PCIe 4.0 lanes. 4 of the lanes are reserved as link to the chipset.
- No integrated graphics.
- Fabrication process: TSMC 7FF.
Branding and Model | Cores (threads) |
Thermal Solution | Clock rate (GHz) | L3 cache (total) |
TDP | Chiplets[i] | Core config[ii] |
Release date |
MSRP | ||
---|---|---|---|---|---|---|---|---|---|---|---|
Base | Boost | ||||||||||
Ryzen 9 | 3950X | 16 (32) | N/A | 3.5 | 4.7 | 64 MB | 105 W[iii] | 2 × CCD 1 × I/OD |
4 × 4 | Nov 25, 2019 | US $749 |
3900XT | 12 (24) | 3.8 | 4 × 3 | Jul 7, 2020 | US $499 | ||||||
3900X | Wraith Prism | 4.6 | Jul 7, 2019 | ||||||||
3900[a] | OEM | 3.1 | 4.3 | 65 W | Oct 8, 2019 | OEM | |||||
Ryzen 7 | 3800XT | 8 (16) | N/A | 3.9 | 4.7 | 32 MB | 105 W | 1 × CCD 1 × I/OD |
2 × 4 | Jul 7, 2020 | US $399 |
3800X | Wraith Prism | 4.5 | Jul 7, 2019 | ||||||||
3700X[a] | 3.6 | 4.4 | W[iv] | 65US $329 | |||||||
Ryzen 5 | 3600XT | 6 (12) | N/A | 3.8 | 4.5 | 95 W | 2 × 3 | Jul 7, 2020 | US $249 | ||
3600X | Wraith Spire (non-LED) | 4.4 | Jul 7, 2019 | ||||||||
3600[a] | Wraith Stealth | 3.6 | 4.2 | 65 W | US $199 | ||||||
3500X[37] | 6 (6) | 4.1 | Oct 8, 2019 | China ¥1099 | |||||||
3500 | OEM | 16 MB | Nov 15, 2019 | OEM (West) Japan ¥16000[38] | |||||||
Ryzen 3 | 3300X | 4 (8) | Wraith Stealth | 3.8 | 4.3 | 1 × 4 | Apr 21, 2020 | US $119 | |||
3100 | 3.6 | 3.9 | 2 × 2 | US $99 |
Common features of Ryzen 3000 HEDT/workstation CPUs:
- Socket: sTRX4 (Threadripper), sWRX8 (Threadripper PRO).
- Threadripper CPUs support DDR4-3200 in quad-channel mode while Threadripper PRO CPUs support DDR4-3200 in octa-channel mode.
- L1 cache: 64 KB (32 KB data + 32 KB instruction) per core.
- L2 cache: 512 KB per core.
- Threadripper CPUs support 64 PCIe 4.0 lanes while Threadripper PRO CPUs support 128 PCIe 4.0 lanes. 8 of the lanes are reserved as link to the chipset.
- No integrated graphics.
- Fabrication process: TSMC 7FF.
Branding and Model | Cores (threads) |
Clock rate (GHz) | L3 cache (total) |
TDP | Chiplets | Core config[i] |
Release date |
MSRP | ||
---|---|---|---|---|---|---|---|---|---|---|
Base | Boost | |||||||||
Ryzen Threadripper PRO |
3995WX | 64 (128) | 2.7 | 4.2 | 256 MB | 280 W [ii] |
8 × CCD 1 × I/OD |
16 × 4 | Jul 14, 2020 | |
3975WX | 32 (64) | 3.5 | 128 MB | 4 × CCD 1 × I/OD |
8 × 4 | |||||
3955WX | 16 (32) | 3.9 | 4.3 | 64 MB | 2 × CCD 1 × I/OD |
4 × 4 | ||||
3945WX | 12 (24) | 4.0 | 4 × 3 | |||||||
Ryzen Threadripper |
3990X | 64 (128) | 2.9 | 256 MB | 8 × CCD 1 × I/OD |
16 × 4 | Feb 7, 2020 | US $3990 | ||
3970X | 32 (64) | 3.7 | 4.5 | 128 MB | 4 × CCD 1 × I/OD |
8 × 4 | Nov 25, 2019 | US $1999 | ||
3960X | 24 (48) | 3.8 | 8 × 3 | US $1399 |
4000 series (Renoir)
editBased on the Ryzen 4000G series APUs but with the integrated graphics disabled. Common features of Ryzen 4000 desktop CPUs:
- Socket: AM4.
- All the CPUs support DDR4-3200 in dual-channel mode.
- L1 cache: 64 KB (32 KB data + 32 KB instruction) per core.
- L2 cache: 512 KB per core.
- All the CPUs support 24 PCIe 3.0 lanes. 4 of the lanes are reserved as link to the chipset.
- No integrated graphics.
- Fabrication process: TSMC 7FF.
- Bundled with AMD Wraith Stealth
The AMD 4700S and 4800S desktop processors are part of a "desktop kit" that comes bundled with a motherboard and GDDR6 RAM. The CPU is soldered, and provides 4 PCIe 2.0 lanes. These are reportedly cut-down variants of the APUs found on the PlayStation 5 and Xbox Series X and S repurposed from defective chip stock.[40][41][42]
Branding and model | Cores (threads) |
Clock rate (GHz) | L3 cache (total) |
TDP | Core config[i] |
Release date |
MSRP | ||
---|---|---|---|---|---|---|---|---|---|
Base | Boost | ||||||||
AMD | 4800S[40][41] | 8 (16) | 4.0 | 8 MB | 2 × 4 | 2022 | bundled with desktop kit | ||
4700S[42] | 3.6 | 75 W | 2021 | ||||||
Ryzen 5 | 4500 | 6 (12) | 4.1 | 65 W | 2 × 3 | Apr 4, 2022 | US $129 | ||
Ryzen 3 | 4100 | 4 (8) | 3.8 | 4.0 | 4 MB | 1 × 4 | US $99 |
- ^ Core Complexes (CCX) × cores per CCX
Desktop APUs
editInitially only provided to OEM; later, AMD released retail Zen 2 desktop APUs in April 2022.[43] Common features of Ryzen 4000 desktop APUs:
- Socket: AM4.
- All the CPUs support DDR4-3200 in dual-channel mode.
- L1 cache: 64 KB (32 KB data + 32 KB instruction) per core.
- L2 cache: 512 KB per core.
- All the CPUs support 24 PCIe 3.0 lanes. 4 of the lanes are reserved as link to the chipset.
- Includes integrated GCN 5th generation GPU.
- Fabrication process: TSMC 7FF.
Branding and model | CPU | GPU | TDP | Release date |
Release price | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Clock rate (GHz) | L3 cache (total) |
Core Config[i] |
Model | Clock (GHz) |
Config[ii] | Processing power[iii] (GFLOPS) | ||||||
Base | Boost | ||||||||||||
Ryzen 7 | 4700G[a] | 8 (16) | 3.6 | 4.4 | 8 MB | 2 × 4 | Radeon Graphics[b] |
2.1 | 512:32:16 8 CU |
2150.4 | 65 W | Jul 21, 2020 | OEM |
4700GE[a] | 3.1 | 4.3 | 2.0 | 2048 | 35 W | ||||||||
Ryzen 5 | 4600G[a][44] | 6 (12) | 3.7 | 4.2 | 2 × 3 | 1.9 | 448:28:14 7 CU |
1702.4 | 65 W | Jul 21, 2020 (OEM) / Apr 4, 2022 (retail) |
OEM / US $154 | ||
4600GE[a] | 3.3 | 35 W | Jul 21, 2020 | OEM | |||||||||
Ryzen 3 | 4300G[a] | 4 (8) | 3.8 | 4.0 | 4 MB | 1 × 4 | 1.7 | 384:24:12 6 CU |
1305.6 | 65 W | |||
4300GE[a] | 3.5 | 35 W |
- ^ Core complexes (CCXs) × cores per CCX
- ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)
- ^ Single-precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Mobile APUs
editRenoir (4000 series)
editCommon features of Ryzen 4000 notebook APUs:
- Socket: FP6.
- All the CPUs support DDR4-3200 or LPDDR4-4266 in dual-channel mode.
- L1 cache: 64 KB (32 KB data + 32 KB instruction) per core.
- L2 cache: 512 KB per core.
- All the CPUs support 16 PCIe 3.0 lanes.
- Includes integrated GCN 5th generation GPU.
- Fabrication process: TSMC 7FF.
Branding and Model | CPU | GPU | TDP | Release date | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Clock rate (GHz) | L3 cache (total) |
Core config[i] |
Model | Clock (GHz) |
Config[ii] | Processing power (GFLOPS)[iii] | |||||
Base | Boost | |||||||||||
Ryzen 9 | 4900H | 8 (16) | 3.3 | 4.4 | 8 MB | 2 × 4 | Radeon Graphics [a] |
1.75 | 512:32:8 8 CU |
1792 | 35–54 W | Mar 16, 2020 |
4900HS | 3.0 | 4.3 | 35 W | |||||||||
Ryzen 7 | 4800H[52] | 2.9 | 4.2 | 1.6 | 448:28:8 7 CU |
1433.6 | 35–54 W | |||||
4800HS | 35 W | |||||||||||
4980U[b] | 2.0 | 4.4 | 1.95 | 512:32:8 8 CU |
1996.8 | 10–25 W | Apr 13, 2021 | |||||
4800U | 1.8 | 4.2 | 1.75 | 1792 | Mar 16, 2020 | |||||||
4700U[c] | 8 (8) | 2.0 | 4.1 | 1.6 | 448:28:8 7 CU |
1433.6 | ||||||
Ryzen 5 | 4600H[53] | 6 (12) | 3.0 | 4.0 | 2 × 3 | 1.5 | 384:24:8 6 CU |
1152 | 35–54 W | |||
4600HS[54] | 35 W | |||||||||||
4680U[b] | 2.1 | 448:28:8 7 CU |
1344 | 10–25 W | Apr 13, 2021 | |||||||
4600U[c] | 384:24:8 6 CU |
1152 | Mar 16, 2020 | |||||||||
4500U | 6 (6) | 2.3 | ||||||||||
Ryzen 3 | 4300U[c] | 4 (4) | 2.7 | 3.7 | 4 MB | 1 × 4 | 1.4 | 320:20:8 5 CU |
896 |
- ^ Core Complexes (CCX) × cores per CCX
- ^ Unified shaders : texture mapping units : render output units and compute units (CU)
- ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Lucienne (5000 series)
editCommon features of Ryzen 5000 notebook APUs:
- Socket: FP6.
- All the CPUs support DDR4-3200 or LPDDR4-4266 in dual-channel mode.
- L1 cache: 64 KB (32 KB data + 32 KB instruction) per core.
- L2 cache: 512 KB per core.
- All the CPUs support 16 PCIe 3.0 lanes.
- Includes integrated GCN 5th generation GPU.
- Fabrication process: TSMC 7FF.
Branding and Model | CPU | GPU | TDP | Release date | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Clock rate (GHz) | L3 cache (total) |
Core config[i] |
Model | Clock (GHz) |
Config[ii] | Processing power (GFLOPS)[iii] | |||||
Base | Boost | |||||||||||
Ryzen 7 | 5700U | 8 (16) | 1.8 | 4.3 | 8 MB | 2 × 4 | Radeon Graphics [a] |
1.9 | 512:32:8 8 CU |
1945.6 | 10–25 W | Jan 12, 2021 |
Ryzen 5 | 5500U[58] | 6 (12) | 2.1 | 4.0 | 2 × 3 | 1.8 | 448:28:8 7 CU |
1612.8 | ||||
Ryzen 3 | 5300U | 4 (8) | 2.6 | 3.8 | 4 MB | 1 × 4 | 1.5 | 384:24:8 6 CU |
1152 |
- ^ Core Complexes (CCX) × cores per CCX
- ^ Unified shaders : texture mapping units : render output units and compute units (CU)
- ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
- ^ All of the iGPUs are branded as AMD Radeon Graphics.
Ultra-mobile APUs
editIn 2022, AMD announced the Mendocino ultra-mobile APUs.[59]
Common features of Ryzen 7020 notebook APUs:
- Socket: FT6
- All the CPUs support LPDDR5-5500 in dual-channel mode.
- L1 cache: 64 KB (32 KB data + 32 KB instruction) per core.
- L2 cache: 512 KB per core.
- All the CPUs support 4 PCIe 3.0 lanes.
- Includes integrated RDNA 2 GPU.
- Fabrication process: TSMC N6 FinFET.
Branding and Model | CPU | GPU | TDP | Release date | |||||||
---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Clock rate (GHz) | L3 cache (total) |
Core config[i] |
Model | Clock (GHz) |
Processing power[ii] (GFLOPS) | |||||
Base | Boost | ||||||||||
Ryzen 5 | 7520U[iii] | 4 (8) | 2.8 | 4.3 | 4 MB | 1 × 4 | 610M 2 CU |
1.9 | 486.4 | 15 W | September 20, 2022[60] |
Ryzen 3 | 7320U[iii] | 2.4 | 4.1 |
Embedded APUs
editModel | Release date |
Fab | CPU | GPU | Socket | PCIe support |
Memory support |
TDP | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Clock rate (GHz) | Cache | Archi- tecture |
Config[i] | Clock (GHz) |
Processing power[ii] (GFLOPS) | ||||||||||
Base | Boost | L1 | L2 | L3 | ||||||||||||
V2516[63] | November 10, 2020[64] | TSMC 7FF |
6 (12) | 2.1 | 3.95 | 32 KB inst. 32 KB data per core |
512 KB per core |
8 MB | GCN 5 | 384:24:8 6 CU |
1.5 | 1152 | FP6 | 20 (8+4+4+4) PCIe 3.0 |
DDR4-3200 dual-channel LPDDR4X-4266 quad-channel |
10–25 W |
V2546[63] | 3.0 | 3.95 | 35–54 W | |||||||||||||
V2718[63] | 8 (16) | 1.7 | 4.15 | 448:28:8 7 CU |
1.6 | 1433.6 | 10–25 W | |||||||||
V2748[63] | 2.9 | 4.25 | 35–54 W |
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
- ^ Single-precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Server CPUs
editCommon features:
- SP3 socket
- Zen 2 microarchitecture
- TSMC 7 nm process for the compute dies, GloFo 14 nm process for the I/O die
- MCM with one I/O Die (IOD) and multiple Core Complex Dies (CCD) for compute, two core complexes (CCX) per CCD chiplet
- Eight-channel DDR4-3200
- 128 PCIe 4.0 lanes per socket, 64 of which are used for Infinity Fabric in 2P platforms
Model | Cores (threads) |
Chiplets | Core config[i] |
Clock rate | Cache | Socket | Scaling | TDP | Release date |
Release price | |||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Base (GHz) |
Boost (GHz) |
L2 (per core) |
L3 (per CCX) |
Total | |||||||||
7232P | 8 (16) | 2 + IOD | 4 × 2 | 3.1 | 3.2 | 512 KiB | 8 MiB | 36 MiB | SP3 | 1P | 120 W | Aug 7, 2019 | $450 |
7252 | 4 × 2 | 3.1 | 3.2 | 16 MiB | 68 MiB | 2P | $475 | ||||||
7262 | 4 + IOD | 8 × 1 | 3.2 | 3.4 | 132 MiB | 155 W | $575 | ||||||
7F32 | 8 × 1 | 3.7 | 3.9 | 132 MiB | 180 W | Apr 14, 2020[65] | $2100 | ||||||
7272 | 12 (24) | 2 + IOD | 4 × 3 | 2.9 | 3.2 | 16 MiB | 70 MiB |
2P | 120 W | Aug 7, 2019 | $625 | ||
7282 | 16 (32) | 2 + IOD | 4 × 4 | 2.8 | 3.2 | 16 MiB | 72 MiB |
$650 | |||||
7302P | 4 + IOD | 8 × 2 | 3 | 3.3 | 136 MiB | 1P | 155 W | $825 | |||||
7302 | 2P | $978 | |||||||||||
7F52 | 8 + IOD | 16 × 1 | 3.5 | 3.9 | 264 MiB | 240 W | Apr 14, 2020[65] | $3100 | |||||
7352 | 24 (48) | 4 + IOD | 8 × 3 | 2.3 | 3.2 | 16 MiB | 140 MiB |
2P | 155 W | Aug 7, 2019 | $1350 | ||
7402P | 2.8 | 3.35 | 1P | 180 W | $1250 | ||||||||
7402 | 2P | $1783 | |||||||||||
7F72 | 6 + IOD | 12 × 2 | 3.2 | 3.7 | 204 MiB | 240 W | Apr 14, 2020[65] | $2450 | |||||
7452 | 32 (64) | 4 + IOD | 8 × 4 | 2.35 | 3.35 | 16 MiB | 144 MiB |
2P | 155 W | Aug 7, 2019 | $2025 | ||
7502P | 2.5 | 3.35 | 1P | 180 W | $2300 | ||||||||
7502 | 2P | $2600 | |||||||||||
7542 | 2.9 | 3.4 | 225 W | $3400 | |||||||||
7532 | 8 + IOD | 16 × 2 | 2.4 | 3.3 | 272 MiB | 200 W | $3350 | ||||||
7552 | 48 (96) | 6 + IOD | 12 × 4 | 2.2 | 3.3 | 16 MiB | 216 MiB | 2P | 200 W | $4025 | |||
7642 | 8 + IOD | 16 × 3 | 2.3 | 3.3 | 280 MiB | 225 W | $4775 | ||||||
7662 | 64 (128) | 8 + IOD | 16 × 4 | 2.0 | 3.3 | 16 MiB | 288 MiB | 2P | 225 W | $6150 | |||
7702P | 2 | 3.35 | 1P | 200 W | $4425 | ||||||||
7702 | 2P | $6450 | |||||||||||
7742 | 2.25 | 3.4 | 225 W | $6950 | |||||||||
7H12 | 2.6 | 3.3 | 280 W | Sep 18, 2019 | --- |
- ^ Core Complexes (CCX) × cores per CCX
Video game consoles and other embedded
editGallery
edit-
AMD Ryzen 7 3700X
-
Zen 2 I/O Die
-
Infrared die shot of the I/O Die
-
EPYC I/O Die
-
Zen 2 Core Complex Die (CCD)
-
AMD EPYC 7702 server processor
-
A delidded AMD 7702 featuring 8 CCDs and 1 I/O die, with remains of the solder thermal interface material (TIM) on the chiplets
See also
editReferences
edit- ^ "AMD Unleashes Ultimate PC Gaming Platform with Worldwide Availability of AMD Radeon RX 5700 Series Graphics Cards and AMD Ryzen 3000 Series Desktop Processors". AMD (Press release). Santa Clara, California. 7 July 2019. Retrieved 7 November 2020.
- ^ Larabel, Michael (16 May 2017). "AMD Talks Up Vega Frontier Edition, Epyc, Zen 2, ThreadRipper". Phoronix. Retrieved 16 May 2017.
- ^ a b Cutress, Ian (20 June 2017). "AMD EPYC Launch Event Live Blog". AnandTech. Retrieved 21 June 2017.
- ^ Boshor, Gavin (20 September 2022). "AMD Launches Mendocino APUs: Zen 2-based Ryzen and Athlon 7020 Series with RDNA 2 Graphics". AnandTech. Retrieved 26 September 2022.
- ^ "Zen 2 - Microarchitectures - AMD". WikiChip. Retrieved 14 June 2020.
- ^ a b Cutress, Ian (9 January 2019). "AMD Ryzen third Gen 'Matisse' Coming Mid 2019: Eight Core Zen 2 with PCIe 4.0 on Desktop". AnandTech. Retrieved 15 January 2019.
- ^ online, heise (27 May 2019). "AMD Ryzen 3000: 12-Kernprozessoren für den Mainstream". c't Magazin.
- ^ a b Leather, Antony (7 July 2019). "AMD Ryzen 9 3900X and Ryzen 7 3700X Review: Old Ryzen Owners Look Away Now". Forbes. Retrieved 13 April 2023.
- ^ Ridley, Jacob (27 May 2019). "AMD Ryzen 3000 CPUs launching July 7 with up to 12 cores". PCGamesN. Retrieved 28 May 2019.
- ^ a b "2nd Gen AMD EPYC Processors Set New Standard for the Modern Datacenter with Record-Breaking Performance and Significant TCO Savings". AMD. 7 August 2019. Retrieved 8 August 2019.
- ^ Hachman, Mark (9 January 2019). "AMD's CEO Lisa Su confirms ray tracing GPU development, hints at more 3rd-gen Ryzen cores". PCWorld. Retrieved 15 January 2019.
- ^ Curtress, Ian (26 May 2019). "AMD Ryzen 3000 Announced: Five CPUs, 12 Cores for $499, Up to 4.6 GHz, PCIe 4.0, Coming 7/7". AnandTech. Retrieved 3 July 2019.
- ^ Thomas, Bill (10 June 2019). "AMD announces the Ryzen 9 3950X, a 16-core mainstream processor". TechRadar. Retrieved 3 July 2019.
- ^ Alcorn, Paul (31 January 2018). "AMD Predicts Double-Digit Revenue Growth In 2018, Ramps Up GPU Production". Tom's Hardware. Retrieved 31 January 2018.
- ^ a b Shilov, Anton (6 November 2018). "AMD Unveils 'Chiplet' Design Approach: 7nm Zen 2 Cores Meet 14 nm I/O Die". AnandTech. Retrieved 13 April 2023.
- ^ Cutress, Ian (10 June 2019). "AMD Zen 2 Microarchitecture Analysis: Ryzen 3000 and EPYC Rome". AnandTech. Retrieved 13 April 2023.
- ^ Walton, Steven (16 November 2020). "AMD Ryzen 5000 IPC Performance Tested". TechSpot. Retrieved 18 April 2021.
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