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| − | {{armh title| | + | {{armh title|Cortex-X5 (Chaberton-ELP)|arch}} |
{{microarchitecture | {{microarchitecture | ||
|atype=CPU | |atype=CPU | ||
| − | |name= | + | |name=Cortex-X5 (Chaberton-ELP) |
| + | |codename=Cortex-X5 | ||
| + | |core name='''Cortex-X5''' | ||
| + | |cores= | ||
|designer=ARM Holdings | |designer=ARM Holdings | ||
|manufacturer=TSMC | |manufacturer=TSMC | ||
|introduction=2024 | |introduction=2024 | ||
| − | |predecessor=Hunter-ELP | + | |phase-out=Cancelled |
| − | |predecessor link=arm holdings/microarchitectures/hunter-elp | + | |predecessor='''Cortex-X3''' (Makalu-ELP) |
| − | |contemporary=Chaberton | + | |predecessor link=arm holdings/microarchitectures/cortex-x3 |
| + | |predecessor 2='''Cortex-X4''' (Hunter-ELP) | ||
| + | |predecessor 2 link=arm holdings/microarchitectures/hunter-elp | ||
| + | |successor='''Cortex-X925''' (Blackhawk) | ||
| + | |successor link=arm holdings/microarchitectures/blackhawk | ||
| + | |successor 2='''Cortex-X930''' (Travis) | ||
| + | |successor 2 link=arm holdings/microarchitectures/travis | ||
| + | |contemporary='''Cortex-A725''' (Chaberton) | ||
|contemporary link=arm holdings/microarchitectures/chaberton | |contemporary link=arm holdings/microarchitectures/chaberton | ||
| + | |contemporary 2='''Cortex-A730''' (Gelas) | ||
| + | |contemporary 2 link=arm holdings/microarchitectures/gelas | ||
}} | }} | ||
| − | '''Logan''' is the successor to the {{\\|Hunter}}. | + | |
| + | <s>'''Cortex-X5''' (Chaberton-ELP)</s> is the successor to the '''Cortex-X4''' ({{\\|Hunter-ELP}}),<!--and '''Cortex-A720''' ({{\\|Hunter}})--> a performance-enhanced version of the <br>'''Cortex-A725''' ({{\\|Chaberton}}), low-power high-performance [[ARM]] [[microarchitecture]] designed by [[Arm]] for the mobile market. | ||
| + | <!-- '''Logan''' is the successor to the {{\\|Hunter}}, low-power high-performance [[ARM]] [[microarchitecture]] designed by [[Arm]] for the mobile market. ? --> | ||
| + | |||
| + | == Cortex-X925 == | ||
| + | '''Cortex-X925''' ''(Blackhawk)'' is the successor to the '''Cortex-X4''' ({{\\|Hunter-ELP}}), a performance-enhanced version of the <br>'''Cortex-A725''' ({{\\|Chaberton}}), low-power high-performance [[ARM]] [[microarchitecture]] designed by [[Arm]] for the mobile market. | ||
| + | |||
| + | === Cortex-X === | ||
| + | :;[[ARM]] • [[Cortex]] | ||
| + | {| class="wikitable" style="text-align: center; | ||
| + | |- | ||
| + | ! Year !! Cortex-X Core !! Cortex-A Core | ||
| + | |- | ||
| + | | [[2020]] || {{armh|Cortex-X1|l=arch}} (''{{armh|Hera|l=arch}}'') <br>{{armh|Cortex-X1C|l=arch}} (''{{armh|Hera-C|l=arch}}'') || {{armh|Cortex-A78|l=arch}} (''{{armh|Hercules|l=arch}}'') <!--<br>{{armh|Cortex-A78AE|l=arch}} (''{{armh|Hercules-AE|l=arch}}'')--> <br>{{armh|Cortex-A78C|l=arch}} (''{{armh|Hera Prime|l=arch}}'') | ||
| + | |- | ||
| + | | [[2021]] || {{armh|Cortex-X2|l=arch}} <br>(''{{armh|Matterhorn-ELP|l=arch}}'') || {{armh|Cortex-A710|l=arch}} (''{{armh|Matterhorn|l=arch}}'') <br>{{armh|Cortex-A510|l=arch}} (''{{armh|Klein|l=arch}}'') | ||
| + | |- | ||
| + | | [[2022]] || {{armh|Cortex-X3|l=arch}} (''{{armh|Makalu-ELP|l=arch}}'') || {{armh|Cortex-A715|l=arch}} (''{{armh|Makalu|l=arch}}'') | ||
| + | |- | ||
| + | | [[2023]] || {{armh|Cortex-X4|l=arch}} (''{{armh|Hunter-ELP|l=arch}}'') || {{armh|Cortex-A720|l=arch}} (''{{armh|Hunter|l=arch}}'') <br>{{armh|Cortex-A520|l=arch}} (''{{armh|Hayes|l=arch}}'') | ||
| + | |- | ||
| + | | [[2024]] || <s>{{armh|Cortex-X5|l=arch}} (''{{armh|Chaberton-ELP|l=arch}}'')</s> <br>{{armh|Cortex-X925|l=arch}} (''{{armh|Blackhawk|l=arch}}'') || {{armh|Cortex-A720AE|l=arch}} (''{{armh|Hunter-AE|l=arch}}'') <br>{{armh|Cortex-A725|l=arch}} (''{{armh|Chaberton|l=arch}}'') | ||
| + | |- | ||
| + | | [[2025]] || {{armh|Cortex-X930|l=arch}} (''{{armh|Travis|l=arch}}'') || {{armh|Cortex-A730|l=arch}} (''{{armh|Gelas|l=arch}}'') <br>{{armh|Cortex-A530|l=arch}} (''{{armh|Nevis|l=arch}}'') | ||
| + | |- | ||
| + | |} | ||
| + | |||
| + | == Architecture == | ||
| + | |||
| + | Cortex-X925 is a high-performance CPU core designed by [[Arm]] and introduced in [[2024]].<ref>https://fuse.wikichip.org/news/7761/arm-launches-next-gen-flagship-cortex-x925/</ref> It is part of the second-generation ARMv9.2 architecture and is built on a [[3 nm]] process node. The Cortex-X925 is designed to excel in single-threaded instruction per clock (IPC) performance, making it ideal for high-performance mobile computing. | ||
| + | |||
| + | The Cortex-X925 is designed to be used in both homogeneous and heterogeneous {{armh|big.LITTLE|DynamIQ}} clusters, providing flexibility in various system configurations. <ref>https://developer.arm.com/documentation/102807/0001/The-Cortex-X925--core/Cortex-X925--core-features</ref> | ||
| + | |||
| + | === Key features === | ||
| + | |||
| + | *Support for ARMv9.2-A instruction set: the core supports A64 instruction set and AArch64 execution state at all exception levels. | ||
| + | *10-wide decode and dispatch width: this allows the core to process more instructions per cycle, increasing overall throughput. <ref>https://www.anandtech.com/show/21399/arm-unveils-2024-cpu-core-designs-cortex-x925-a725-and-a520-arm-v9-2-redefined-for-3nm-/2</ref> | ||
| + | *Increased L1 instruction cache (I$) bandwidth: the core features a 2x increase in L1 I$ bandwidth, ensuring quick instruction fetch and decode. | ||
| + | *Enhanced branch prediction unit: techniques such as folded-out unconditional direct branches reduce mispredicted branches, leading | ||
| + | :to fewer pipeline flushes and higher sustained IPC. | ||
| + | *Doubled instruction window size: this reduces stalls and improves the efficiency of the execution pipeline. | ||
| + | *Scalable Vector Extension (SVE) and SVE2: these extensions provide advanced SIMD and floating-point support. | ||
| + | *Error protection: the core includes error protection on L1 instruction and data caches, L2 cache, | ||
| + | :and MMU Translation Cache (MMU TC) with parity or ECC. | ||
| + | |||
| + | === Comparison === | ||
| + | |||
| + | :;"Prime" core | ||
| + | {| class="wikitable sortable" cellpadding="3px" style="border: 1px solid black; border-spacing: 0px; width: 100%; text-align:center; | ||
| + | |- | ||
| + | ![[Microarchitecture|Architecture]] | ||
| + | !{{armh|Cortex-A78|l=arch}} | ||
| + | !{{armh|Cortex-X1|l=arch}} | ||
| + | !{{armh|Cortex-X2|l=arch}} | ||
| + | !{{armh|Cortex-X3|l=arch}} | ||
| + | !{{armh|Cortex-X4|l=arch}} | ||
| + | !{{armh|Cortex-X925|l=arch}} | ||
| + | !{{armh|Cortex-X930|l=arch}} | ||
| + | |- | ||
| + | !Code name | ||
| + | |''{{armh|Hercules|l=arch}}'' | ||
| + | |''Hera'' | ||
| + | |''{{armh|Matterhorn|l=arch}}-ELP'' | ||
| + | |''{{armh|Makalu|l=arch}}-ELP'' | ||
| + | |''{{armh|Hunter-ELP|l=arch}}'' | ||
| + | |''Blackhawk'' | ||
| + | |''Travis'' | ||
| + | |- | ||
| + | !ISA | ||
| + | | colspan="2" |[[ARMv8]].2-A | ||
| + | | colspan="2" |ARMv9.0-A | ||
| + | | colspan="3" |ARMv9.2-A | ||
| + | |- | ||
| + | !Peak clock speed | ||
| + | | colspan="3" |~3.0 GHz | ||
| + | |~3.3 GHz | ||
| + | |~3.4 GHz | ||
| + | |~3.8 GHz | ||
| + | |~4.2 GHz | ||
| + | |- | ||
| + | !Max in-flight | ||
| + | |2x 160 | ||
| + | |2x 224 | ||
| + | |2x 288 | ||
| + | |2x 320 | ||
| + | |2x 384 | ||
| + | |2x 768 | ||
| + | | | ||
| + | |- | ||
| + | !L0 (Mops entries) | ||
| + | |1536 <ref>{{cite book |title=Arm's New Cortex-A78 and Cortex-X1 Microarchitectures: An Efficiency and Performance Divergence |url=https://www.anandtech.com/show/15813/arm-cortex-a78-cortex-x1-cpu-ip-diverging }}</ref> | ||
| + | | colspan="2" |3072 | ||
| + | |1536 | ||
| + | |0 | ||
| + | | | ||
| + | | | ||
| + | |- | ||
| + | !L1-I + L1-D | ||
| + | |32+32 KiB | ||
| + | | colspan="2" |64+64 KiB | ||
| + | | colspan="2" |64+64 KiB | ||
| + | |64+64 KiB | ||
| + | | | ||
| + | |- | ||
| + | !L2 | ||
| + | |128–512 KiB | ||
| + | | colspan="3" |0.25–1 MiB | ||
| + | |0.5–2 MiB | ||
| + | |2–3 MiB | ||
| + | | | ||
| + | |- | ||
| + | !L3 | ||
| + | | colspan="2" |0–8 MiB <ref>{{cite book |last=Schor |first=David |date=2020-05-26 |title=Arm Cortex-X1: The First From The Cortex-X Custom Program |url=https://fuse.wikichip.org/news/3543/arm-cortex-x1-the-first-from-the-cortex-x-custom-program/ |website=WikiChip Fuse }}</ref> | ||
| + | | colspan="2" |0–16 MiB | ||
| + | | colspan="2" |0–32 MiB | ||
| + | | | ||
| + | |- | ||
| + | !Decode width | ||
| + | |4 | ||
| + | | colspan="2" |5 | ||
| + | |6 | ||
| + | |10 <ref>{{cite book |date=2023-05-29 |title=Arm Cortex-X4, A720, and A520: 2024 smartphone CPUs deep dive |url=https://www.androidauthority.com/arm-cortex-x4-explained-3328008/ |website=Android Authority}}</ref> | ||
| + | |10 | ||
| + | | | ||
| + | |- | ||
| + | !Dispatch | ||
| + | |6/cycle | ||
| + | | colspan="3" |8/cycle | ||
| + | | colspan="2" |10/cycle | ||
| + | | | ||
| + | |- | ||
| + | |} | ||
| + | |||
| + | == References == | ||
Latest revision as of 18:31, 15 April 2025
| Edit Values | |
| Cortex-X5 (Chaberton-ELP) µarch | |
| General Info | |
| Arch Type | CPU |
| Designer | ARM Holdings |
| Manufacturer | TSMC |
| Introduction | 2024 |
| Phase-out | Cancelled |
| Cores | |
| Core Names | Cortex-X5 |
| Succession | |
| Contemporary | |
| Cortex-A725 (Chaberton) Cortex-A730 (Gelas) | |
Cortex-X5 (Chaberton-ELP) is the successor to the Cortex-X4 (Hunter-ELP), a performance-enhanced version of the
Cortex-A725 (Chaberton), low-power high-performance ARM microarchitecture designed by Arm for the mobile market.
Cortex-X925[edit]
Cortex-X925 (Blackhawk) is the successor to the Cortex-X4 (Hunter-ELP), a performance-enhanced version of the
Cortex-A725 (Chaberton), low-power high-performance ARM microarchitecture designed by Arm for the mobile market.
Cortex-X[edit]
| Year | Cortex-X Core | Cortex-A Core |
|---|---|---|
| 2020 | Cortex-X1 (Hera) Cortex-X1C (Hera-C) |
Cortex-A78 (Hercules) Cortex-A78C (Hera Prime) |
| 2021 | Cortex-X2 (Matterhorn-ELP) |
Cortex-A710 (Matterhorn) Cortex-A510 (Klein) |
| 2022 | Cortex-X3 (Makalu-ELP) | Cortex-A715 (Makalu) |
| 2023 | Cortex-X4 (Hunter-ELP) | Cortex-A720 (Hunter) Cortex-A520 (Hayes) |
| 2024 | Cortex-X925 (Blackhawk) |
Cortex-A720AE (Hunter-AE) Cortex-A725 (Chaberton) |
| 2025 | Cortex-X930 (Travis) | Cortex-A730 (Gelas) Cortex-A530 (Nevis) |
Architecture[edit]
Cortex-X925 is a high-performance CPU core designed by Arm and introduced in 2024.[1] It is part of the second-generation ARMv9.2 architecture and is built on a 3 nm process node. The Cortex-X925 is designed to excel in single-threaded instruction per clock (IPC) performance, making it ideal for high-performance mobile computing.
The Cortex-X925 is designed to be used in both homogeneous and heterogeneous DynamIQ clusters, providing flexibility in various system configurations. [2]
Key features[edit]
- Support for ARMv9.2-A instruction set: the core supports A64 instruction set and AArch64 execution state at all exception levels.
- 10-wide decode and dispatch width: this allows the core to process more instructions per cycle, increasing overall throughput. [3]
- Increased L1 instruction cache (I$) bandwidth: the core features a 2x increase in L1 I$ bandwidth, ensuring quick instruction fetch and decode.
- Enhanced branch prediction unit: techniques such as folded-out unconditional direct branches reduce mispredicted branches, leading
- to fewer pipeline flushes and higher sustained IPC.
- Doubled instruction window size: this reduces stalls and improves the efficiency of the execution pipeline.
- Scalable Vector Extension (SVE) and SVE2: these extensions provide advanced SIMD and floating-point support.
- Error protection: the core includes error protection on L1 instruction and data caches, L2 cache,
- and MMU Translation Cache (MMU TC) with parity or ECC.
Comparison[edit]
- "Prime" core
| Architecture | Cortex-A78 | Cortex-X1 | Cortex-X2 | Cortex-X3 | Cortex-X4 | Cortex-X925 | Cortex-X930 |
|---|---|---|---|---|---|---|---|
| Code name | Hercules | Hera | Matterhorn-ELP | Makalu-ELP | Hunter-ELP | Blackhawk | Travis |
| ISA | ARMv8.2-A | ARMv9.0-A | ARMv9.2-A | ||||
| Peak clock speed | ~3.0 GHz | ~3.3 GHz | ~3.4 GHz | ~3.8 GHz | ~4.2 GHz | ||
| Max in-flight | 2x 160 | 2x 224 | 2x 288 | 2x 320 | 2x 384 | 2x 768 | |
| L0 (Mops entries) | 1536 [4] | 3072 | 1536 | 0 | |||
| L1-I + L1-D | 32+32 KiB | 64+64 KiB | 64+64 KiB | 64+64 KiB | |||
| L2 | 128–512 KiB | 0.25–1 MiB | 0.5–2 MiB | 2–3 MiB | |||
| L3 | 0–8 MiB [5] | 0–16 MiB | 0–32 MiB | ||||
| Decode width | 4 | 5 | 6 | 10 [6] | 10 | ||
| Dispatch | 6/cycle | 8/cycle | 10/cycle | ||||
References[edit]
- ↑ https://fuse.wikichip.org/news/7761/arm-launches-next-gen-flagship-cortex-x925/
- ↑ https://developer.arm.com/documentation/102807/0001/The-Cortex-X925--core/Cortex-X925--core-features
- ↑ https://www.anandtech.com/show/21399/arm-unveils-2024-cpu-core-designs-cortex-x925-a725-and-a520-arm-v9-2-redefined-for-3nm-/2
- ↑ Arm's New Cortex-A78 and Cortex-X1 Microarchitectures: An Efficiency and Performance Divergence.
- ↑ Schor, David (2020-05-26). Arm Cortex-X1: The First From The Cortex-X Custom Program.
- ↑ (2023-05-29) Arm Cortex-X4, A720, and A520: 2024 smartphone CPUs deep dive.
Facts about "Cortex-X5 (Chaberton-ELP) - Microarchitectures - ARM"
| codename | Cortex-X5 (Chaberton-ELP) + |
| designer | ARM Holdings + |
| first launched | 2024 + |
| full page name | arm holdings/microarchitectures/chaberton-elp + |
| instance of | microarchitecture + |
| manufacturer | TSMC + |
| microarchitecture type | CPU + |
| name | Cortex-X5 (Chaberton-ELP) + |