Exynos

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Family of ARM based system-on-a-chips made by Samsung

title: "Exynos" type: doc version: 1 created: 2026-02-28 author: "Wikipedia contributors" status: active scope: public tags: ["arm-based-systems-on-chips", "samsung-electronics-products", "system-on-a-chip"] description: "Family of ARM based system-on-a-chips made by Samsung" topic_path: "engineering" source: "https://en.wikipedia.org/wiki/Exynos" license: "CC BY-SA 4.0" wikipedia_page_id: 0 wikipedia_revision_id: 0

::summary Family of ARM based system-on-a-chips made by Samsung ::

::figure[src="https://upload.wikimedia.org/wikipedia/commons/6/6f/Exynos_Logo.svg" caption="Logo of Samsung Exynos"] ::

::figure[src="https://upload.wikimedia.org/wikipedia/commons/c/cc/Samsung-Exynos-4412-Quad_SoC_used_in_I9300.jpg" caption="An Exynos 4 Quad (4412), on the circuit board of a [[Samsung Galaxy S III]] smartphone"] ::

The Samsung Exynos (stylized as SΛMSUNG Exynos), formerly Hummingbird (), is a series of Arm-based system-on-chips developed by Samsung Electronics' System LSI division and manufactured by Samsung Foundry. It is a continuation of Samsung's earlier S3C, S5L and S5P line of SoCs.

The debut of Samsung's indigenously developed SoC is Samsung Hummingbird (S5PC110/111), later renamed as Exynos 3 Single 3110. Samsung announced it on July 27, 2009. In 2011, Samsung announced Exynos 4 Dual 4210 that was later equipped on Samsung Galaxy S II. Since then, Samsung has used Exynos as a representative brand name of their SoC, based on Arm Cortex cores. In 2017, Samsung launched their proprietary Arm ISA-based customized core designs, codenamed "Exynos M". Exynos M series core made a debut with Exynos M1 nicknamed "Mongoose", which was used for Exynos 8 Octa 8890. The Exynos M-series have been implemented throughout the flagship lineup of Samsung Exynos 9 series, until Exynos 990. From 2021 onwards, Exynos M6 and M7 microarchitecture developments have been cancelled and instead Samsung adopts Arm Cortex-X core series as the primary core.

In 2022, Samsung started adoption of AMD RDNA GPU microarchitecture into their SoC, beginning on Exynos 2200 with Xclipse 920, which used customized "mobile RDNA" based on RDNA 2. In 2024, Samsung expanded AMD RDNA 3-based GPU into their midrange chips, since Exynos 1480 (Xclipse 530).

History

2010–2016: Pre-Mongoose Era

In 2010, Samsung launched the Hummingbird S5PC110 (now Exynos 3 Single) in its Samsung Galaxy S smartphone, which featured a licensed Arm Cortex-A8 CPU. This Arm Cortex-A8 was code-named Hummingbird. It was developed in partnership with Intrinsity using their FastCore and Fast14 technology.

In early 2011, Samsung first launched the Exynos 4210 SoC in its Samsung Galaxy S II mobile smartphone. The driver code for the Exynos 4210 was made available in the Linux kernel and support was added in version 3.2 in November 2011.

On 29 September 2011, Samsung introduced Exynos 4212 as a successor to the 4210; it features a higher clock frequency and "50 percent higher 3D graphics performance over the previous processor generation". Built with a 32 nm high-κ metal gate (HKMG) low-power process; it promises a "30 percent lower power-level over the previous process generation".

On 30 November 2011, Samsung released information about their upcoming SoC with a dual-core ARM Cortex-A15 CPU, which was initially named "Exynos 5250" and was later renamed to Exynos 5 Dual. This SoC has a memory interface providing 12.8 GB/s of memory bandwidth, support for USB 3.0 and SATA 3, can decode full 1080p video at 60 fps along with simultaneously displaying WQXGA-resolution (2560 × 1600) on a mobile display as well as 1080p over HDMI. This SoC was used in some Chromebooks from 2013. Samsung Exynos 5 Dual has been used in a 2015 prototype supercomputer, while the end-product will use a chip meant for servers from another vendor.

On 26 April 2012, Samsung released the Exynos 4 Quad, which powers the Samsung Galaxy S III and Samsung Galaxy Note II. The Exynos 4 Quad SoC uses 20% less power than the SoC in Samsung Galaxy S II. Samsung also changed the name of several SoCs, Exynos 3110 to Exynos 3 Single, Exynos 4210 and 4212 to Exynos 4 Dual 45 nm, and Exynos 4 Dual 32 nm and Exynos 5250 to Exynos 5 Dual.

In 2010 Samsung founded a design center in Austin called Samsung's Austin R&D Center (SARC). Samsung has hired many ex-AMD, ex-Intel, ex-ARM and various other industry veterans. The SARC developed high-performance, low-power, complex CPU and System IP (Coherent Interconnect and memory controller) architectures and designs. In 2012, Samsung began development of GPU IP called "S-GPU".

2016–2020: Mongoose Era

After a three-year design cycle, SARC's first custom CPU core called the M1 was released in the Exynos 8890 in 2016. In 2017 the San Jose Advanced Computing Lab (ACL) was opened to continue custom GPU IP development. In the same year, Samsung announced Exynos M2, a minor revision of Exynos M1.

In Hot Chips 2018, Samsung announced a new custom core named Exynos M3, codenamed Meerkat. M3 has widened decoder width from 4-wide to 6-wide, and introduced L3 cache structure. Also, it achieved over 50% IPC increase versus Exynos M1 and M2. SPEC2006 benchmark result showed that it has performance advantage comparing with counterparts of Snapdragon 845 (Cortex-A75) at their respective peak clock speed, and by lowering the clock speed to 1.79 GHz it matched the power efficiency versus Cortex-A75 of Snapdragon 845. However, Samsung Galaxy S9 with Exynos 9810 was criticized in early period of their release due to the poor CPU core scheduler settings.

In 2019, Samsung revealed Exynos 9820 with fourth-generation custom core named Exynos M4 (Cheetah). It has been manufactured on Samsung 8 nm LPP process. Unlike the past flagship Exynos series with 4+4 dual-cluster settings, Exynos 9820 implemented 2+2+4 core cluster configurations. Benchmark result presented that Exynos 9820 had performance parity but worse efficiency over Snapdragon 855. Later, Samsung announced Exynos 9825, a revised SoC manufactured on their first 7 nm manufacturing process named 7LPE. Exynos 9825 came equipped with Samsung Galaxy Note10 series and Samsung Galaxy F62/M62.

In 2020, Samsung released last Mongoose-based SoC, named Exynos 990. Exynos 990 came with their fifth-generation custom core (Exynos M5) codenamed Lion. However, M5 showed less performance and worse power efficiency against Cortex-A77 of Snapdragon 865.

On 1 October 2019, rumors emerged that Samsung had laid off their custom CPU core teams at SARC. On 1 November 2019, Samsung filed a WARN letter with the Texas Workforce Commission, notifying of upcoming layoffs of their SARC CPU team and termination of their custom CPU core development. SARC and ACL will still continue development of custom SoC, AI, and GPU.

2021–present: Cortex and RDNA Era

On 3 June 2019, AMD and Samsung announced a multi-year strategic partnership in mobile graphics IP based on AMD Radeon GPU IP. NotebookCheck reported that Samsung are targeting 2021 for their first SoC with AMD Radeon GPU IP. However, AnandTech reported 2022. In August 2019, during AMD's Q2 2019 earnings call, AMD stated that Samsung plans to launch SoCs with AMD graphics IP in roughly two years. The first SoC to use Radeon GPU were Exynos 2200, introduced in January 2022, with a custom Xclipse 920 based on AMD's RDNA 2 microarchitecture.

In June 2021, Samsung hired engineers from AMD and Apple to form a new custom architecture team.

In October 2021, Google released their Pixel 6 series of phones based on Google's Tensor SoC, which was made in collaboration with Samsung.

In 2024, Samsung officially announced Exynos 2400, with RDNA 3 microarchitecture-based Xclipse 940. In the same year, along with Exynos 2400, Samsung released Exynos 1480, with RDNA 3 based Xclipse 530, marking the end of Arm Mali GPU era in their mid-range processors.

Current Exynos SoCs (2020–present)

Starting in 2020 Samsung introduced a new series of Exynos SoCs with lower numbers than in the past. This indicates a cut between the past Exynos SoCs at least in naming.

Exynos 800 series

::data[format=table]

SoCCPUGPUMemory technologyNPUModemConnectivityReleasedDevices usingModel numberFab.Die size (mm2)ISAμarchμarchFrequency (MHz)Performance GFLOPS (FP32)TypeBus width (bit)Bandwidth (GB/s)
Exynos 850 (S5E3830)8 nm (Samsung 8LPP)ARMv8.2-A8 cores 2.0 GHz Cortex-A55Mali-G52 MP1100132LPDDR4X32-bit (2×16-bit) Dual-channel1866 MHz (14.9 GB/s){{Collapsible listBluetooth 5.0, Wi-Fi 5Q2 2020{{Collapsible list
Exynos 880 (S5E8805)2 + 6 cores (2.0 GHz Cortex-A77 + 1.8 GHz Cortex-A55)Mali-G76 MP55461312133 MHz (17.1 GB/s)NPU{{Collapsible list{{Collapsible list
::

Exynos 900 series

::data[format=table]

SoCCPUGPUMemory technologyNPUModemConnectivityReleasedDevices usingModel numberFab.Die size (mm2)ISAμarchμarchFrequency (MHz)Performance GFLOPS (FP32)TypeBus width (bit)Bandwidth (GB/s)
Exynos 980 (S5E9630)8 nm (Samsung 8LPP)ARMv8.2-A2 + 6 cores (2.2 GHz Cortex-A77 + 1.8 GHz Cortex-A55)Mali-G76 MP5728174.7LPDDR4X32-bit (2×16-bit) Dual-channel2133 MHz (17.1 GB/s)Single core NPU + DSP{{Collapsible listBluetooth 5.0, Wi-Fi 802.11a/b/g/n/ac/axQ4 2019{{Collapsible list
url=https://www.samsung.com/semiconductor/minisite/exynos/products/mobileprocessor/exynos-990/title=Exynos 990 Mobile Processor: Specs, Features Samsung Exynoswebsite=Samsung Semiconductorlanguage=enaccess-date=2019-10-24}}7 nm (Samsung 7LPP)91.832 + 2 + 4 cores (3.02 GHz Exynos M5 "Lion" + 2.6 GHz Cortex-A76 + 2.11 GHz Cortex-A55)
Mali-G77 MP11832585.7LPDDR564-bit (4×16-bit) Quad-channel2750 MHz (44 GB/s)Dual-core NPU + DSP{{Collapsible listQ1 2020{{Collapsible list
::

Exynos 1000 series

::data[format=table]

SoCCPUGPUMemory technologyNPUModemConnectivityReleasedDevices usingModel numberFab.Die size (mm2)ISAμarchμarchFrequency (MHz)Performance GFLOPS (FP32)TypeBus width (bit)Bandwidth (GB/s)
Exynos 1080 (S5E9815)5 nm (Samsung 5LPE)ARMv8.2-A1 + 3 + 4 cores (2.8 GHz Cortex-A78 + 2.6 GHz Cortex-A78 + 2.0 GHz Cortex-A55)Mali-G78 MP10800512LPDDR4X
LPDDR564-bit (4×16-bit) Quad-channel2133 MHz (34.1 GB/s)

2750 MHz (44 GB/s) | NPU + DSP (5.7 TOPs) | {{Collapsible list| | Bluetooth 5.2, Wi-Fi 802.11a/b/g/n/ac/ax | Q4 2020 | {{Collapsible list| | | | | | | Exynos 1280 (S5E8825) | | 2 + 6 cores (2.4 GHz Cortex-A78 + 2.0 GHz Cortex-A55) | Mali-G68 MP4 | 897 | 229.6 | LPDDR4X | 32-bit (2×16-bit) Dual-channel | 2133 MHz (17.1 GB/s) | Single-core NPU 1196 MHz (4.3 TOPs) | {{Collapsible list| | Bluetooth 5.2, Wi-Fi 5, GNSS | Q1 2022 | {{Collapsible list| | | | | | | | | Exynos 1330 (S5E8535) | | Mali-G68 MP2 | 949 | 121.5 | LPDDR4X LPDDR5 | 2133 MHz (17.1 GB/s)

3200 MHz (25.6 GB/s) | | {{Collapsible list| | Q1 2023 | {{Collapsible list| | | | | | | | | | | ::

|- | Exynos 1380 (S5E8835) | | 4 + 4 cores (2.4 GHz Cortex-A78 + 2.0 GHz Cortex-A55) | Mali-G68 MP5 |303.7 | Single-core NPU 1196 MHz (4.9 TOPs) | {{Collapsible list| Shannon 5318

5G NR Sub-6 GHz 3.79 Gbps (DL) / 1.28 Gbps (UL)

5G NR mmWave 3.67 Gbps (DL) / 0.92 Gbps (UL)

LTE Cat.18 1.2 Gbps (DL) / Cat.18 211 Mbps (UL) | Bluetooth 5.3, Wi-Fi 6, GNSS | Q1 2023 | {{Collapsible list|

5G NR Sub-6 GHz 5.10 Gbps (DL) / 1.28 Gbps (UL)

5G NR mmWave 4.84 Gbps (DL) / 0.92 Gbps (UL)

LTE Cat.18 1.2 Gbps (DL) / Cat.18 211 Mbps (UL) | Bluetooth 5.3, Wi-Fi 6E, GNSS | Q1 2024 | {{Collapsible list|

5G NR Sub-6GHz 5.1 Gbps (DL), 1.28 Gbps (UL) / 5G NR mmWave 4.84 Gbps (DL), 0.92 Gbps (UL) / LTE Cat.18 6CC 1.2 Gbps (DL), Cat.18 2CC 211 Mbps (UL) | Bluetooth 5.4, Wi-Fi 6E, GNSS | Q4 2024 | {{Collapsible list|

Exynos 2000 series

::data[format=table]

SoCCPUGPUMemory technologyNPUModemConnectivityReleasedDevices usingModel numberFab.Die size (mm2)ISAμarchμarchFrequency (MHz)Performance GFLOPS (FP32)TypeBus width (bit)Bandwidth (GB/s)
Exynos 2100 (S5E9840)5 nm (Samsung 5LPE)last1=Gantifirst1=Aniltitle=Exynos 2400, 2200, 2100 die shots highlight the chips' evolution over the yearsurl=https://www.notebookcheck.net/Exynos-2400-2200-2100-die-shots-highlight-the-chips-evolution-over-the-years.832760.0.htmlwebsite=Notebookcheckaccess-date=14 May 2024date=30 April 2024}}ARMv8.2-A1 + 3 + 4 cores (2.91 GHz Cortex-X1 + 2.81 GHz Cortex-A78 + 2.2 GHz Cortex-A55)Mali-G78 MP14854765.2LPDDR564-bit (4×16-bit) Quad-channel3200 MHz (51.2 GB/s)6K MAC
Triple NPU + DSP
1352 MHz
(26 TOPs){{Collapsible listBluetooth 5.0, Wi-Fi 6Q1 2021{{Collapsible list
Exynos 2200 (S5E9925)4 nm (Samsung 4LPE)104.7ARMv9.0-A1 + 3 + 4 cores (2.95 GHz Cortex-X2 + 2.70 GHz Cortex-A710 + 2.10 GHz Cortex-A510)Xclipse 920 "Voyager"
(RDNA 2 based
384:24:24:6
3 WGP)13061,0038K MAC
Dual NPU + DSP
1066 MHz{{Collapsible listBluetooth 5.2, Wi-Fi 6EQ1 2022{{Collapsible list
Exynos 2400/2400e (S5E9945){{Cite weburl=https://news.samsung.com/global/samsung-showcases-groundbreaking-logic-innovations-at-system-lsi-tech-day-2023/title=Samsung Showcases Groundbreaking Logic Innovations at System LSI Tech Day 2023language=enaccess-date=2023-10-23}}4 nm (Samsung 4LPP+)137.4ARMv9.2-A1 + 2 + 3 + 4 cores (3.1/3.2 GHz Cortex-X4 + 2.9 GHz Cortex-A720 + 2.6 GHz Cortex-A720 + 1.95 GHz Cortex-A520)Xclipse 940 "Magellan"
(RDNA 3 based
768:48:32:12
6 WGP)10953,406.8LPDDR5X4266 MHz (68.2 GB/s)17K MAC NPU (2x GNPU + 2x SNPU) + DSP
1300 MHz{{Collapsible listBluetooth 5.3, Wi-Fi 6EQ1 2024{{Collapsible list
Exynos 2500 (S5E9955)3 nm (Samsung 3GAP)1 + 2 + 5 + 2 cores (3.3 GHz Cortex-X925 + 2.74 GHz Cortex-A725 + 2.36 GHz Cortex-A725 + 1.8 GHz Cortex-A520)Xclipse 950 "Galileo"
(RDNA 3 based
1024:64:64:16
8 WGP)9994,091.924K MAC NPU (2x GNPU + 2x SNPU) + DSP
(59 TOPs){{Collapsible listBluetooth 5.4, Wi-Fi 7Q2 2025{{Collapsible list
Exynos 2600 (S5E9965)2 nm (Samsung SF2)ARMv9.3-A1 + 3 + 6 cores (3.8 GHz C1-Ultra + 3.25 GHz C1-Pro + 2.75 GHz C1-Pro)Xclipse 960
(RDNA based)32K MAC NPUQ1 2026
::

Past Exynos SoCs (2010–2019)

::data[format=table] | SoC | CPU | GPU | Memory technology | NPU | Modem | Connectivity | Released | Devices using | Model number | Fab. | Die size (mm2) | ISA | μarch | μarch | Frequency (MHz) | Performance (GFLOPS) | Type | Bus width (bit) | Bandwidth (GB/s) | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | Exynos 3 Single 3110 (previously Hummingbird S5PC110) | 45 nm (Samsung 45 nm HKMG) | | ARMv7 | 1 core 1.2 GHz Cortex-A8 | PowerVR SGX540 | 200 | 3.2 | LPDDR, LPDDR2 or DDR2 | 64-bit (2×32-bit) Dual-channel | 200 MHz (3.2 GB/s) | rowspan=33 | | | Q2 2010 | {{Collapsible list|at 1 GHz: | | | | | | Exynos 3 Quad 3470 | 28 nm (Samsung 28 nm HKMG) | | 4 cores 1.4 GHz Cortex-A7 | Mali-400 MP4 | 450 | 16.2 | LPDDR2 or LPDDR3 | 400 MHz (6.4 GB/s) or 533 MHz (8.5 GB/s) | | | Q3 2014 | | | | | | | | | | Exynos 3 Quad 3475 | | 4 cores 1.3 GHz Cortex-A7 | Mali-T720 | 600 | 12 | LPDDR3 | 533 MHz (8.5 GB/s) | | | Q3 2015 | {{Collapsible list| | | | | | | | | | ::

|- | Exynos 4 Dual 4210 | 45 nm (Samsung 45 nm HKMG) | | 2 cores 1.2 GHz Cortex-A9 | rowspan="4" | Mali-400 MP4 |266 | 9.6 | rowspan=4 | LPDDR2, DDR2 or DDR3 | rowspan=4 | 400 MHz (6.4 GB/s) | | | Q2 2011 | {{Collapsible list|at 1.2 GHz: :Samsung Galaxy S II, Samsung Galaxy Tab 7.0 Plus at 1.4 GHz: :Samsung Galaxy Note, Samsung Galaxy Tab 7.7, Hardkernel ODROID-A, Meizu MX 2-Core (first 2-core model), Cotton Candy by FXI Tech, ORIGEN 4 Dual}} |- | Exynos 4 Dual 4212 | rowspan="2" | 32 nm (Samsung 32 nm HKMG) | | 2 cores 1.5 GHz Cortex-A9 |400 | 14.4 | | | Q1 2012 | |- | Exynos 4 Quad 4412 | | 4 cores 1.6 GHz Cortex-A9 | 400–533 | 14.4–19.2 | | | Q2 2012 | |- | Exynos 4 Quad 4415 | 28 nm (Samsung 28 nm HKMG) | | 4 cores 1.5 GHz Cortex-A9 | 533 | 19.2 | | | Q3 2014 | |- | Exynos 5 Dual 5250 | 32 nm (Samsung 32 nm HKMG) | | 2 cores 1.7 GHz Cortex-A15 | Mali-T604 MP4 | 533 | 72.5 | LPDDR2, LPDDR3 or DDR3 | 533 MHz (8.5 GB/s) or 800 MHz (12.8 GB/s) | | | Q3 2012 | |- | Exynos 5 Hexa 5260 | rowspan="4" | 28 nm (Samsung 28 nm HKMG) | | 2+4 cores (1.7 GHz Cortex-A15 + 1.3 GHz Cortex-A7) | Mali-T624 MP4 | 600 | 81.6 | rowspan=2 | LPDDR3 | rowspan=2 | 800 MHz (12.8 GB/s) | | | Q2 2014 | |- | Exynos 5 Octa 5410 | | 4+4 cores (1.6 GHz Cortex-A15 + 1.2 GHz Cortex-A7) | PowerVR SGX544 MP3 | 480–532 | 49 | | | Q2 2013 | |- | Exynos 5 Octa 5420 |136.96 | 4+4 cores (1.9 GHz Cortex-A15 + 1.3 GHz Cortex-A7) | rowspan="4" | Mali-T628 MP6 | rowspan="2" | 533 | rowspan="2" | 108.7 | rowspan="2" | LPDDR3e | rowspan="2" | 933 MHz (14.9 GB/s) | | | Q3 2013 | |- | Exynos 5 Octa 5422 | | 4+4 cores (2.1 GHz Cortex-A15 + 1.5 GHz Cortex-A7) | | | Q2 2014 | |- | Exynos 5 Octa 5430 | 20 nm (Samsung 20 nm HKMG) | 110.18 | 4+4 cores (1.8 GHz Cortex-A15 + 1.3 GHz Cortex-A7) | 600 | 122.4 | LPDDR3e/DDR3 | 1066 MHz (17.0 GB/s) | | | Q3 2014 | {{Collapsible list|

  • Meizu MX4 Pro
  • Samsung Galaxy Alpha (SM-G850F)
  • Samsung Galaxy A7 (2015)
  • Samsung Galaxy A8 (2015) (A800S, A800F) |}} |- | Exynos 5 Octa 5800 |28 nm (Samsung 28 nm HKMG) | | 4+4 cores (2.0 GHz Cortex-A15 + 1.3 GHz Cortex-A7) | ? | ? | LPDDR3/DDR3 | 933 MHz (14.9 GB/s) | | | Q2 2014 | |- | Exynos5433Exynos 7 Octa 5433 | 20 nm (Samsung 20 nm HKMG) | 113.42 | rowspan=18 | ARMv8-A | 4 + 4 cores (1.9 GHz Cortex-A57 + 1.3 GHz Cortex-A53) GTS | Mali-T760 MP6 | 700 | 117.6 | LPDDR3 | 825 MHz (13.2 GB/s) | Paired with Samsung M303/Intel XMM 7260 LTE Cat 6 (300Mbit/s) or Ericsson M7450 LTE Cat 4 | Bluetooth, Wi-Fi | Q4 2014 | {{Collapsible list|
  • Samsung Galaxy A8 (2015) VE (A800I, A800J)
  • Samsung Galaxy Note 4 (SM-N910C, SM-N910H, SM-N910U, SM-N910S, SM-N910K, SM-N910L, SM-N916S, SM-N916K, SM-N916L)
  • Samsung Galaxy Note Edge (South Korea version)
  • Samsung Galaxy Tab S2 |}} |- | Exynos 7 Octa 7420 | 14 nm (Samsung 14LPE) |78.23 | 4 + 4 cores (2.1 GHz Cortex-A57 + 1.5 GHz Cortex-A53) GTS | Mali-T760 MP8 | 772 | 172.9 |LPDDR4 | 1553 MHz (24.88 GB/s) | Paired with Shannon 333 LTE Cat 9 (450 Mbit/s) | Bluetooth, Wi-Fi | Q2 2015 | {{Collapsible list|
  • Meizu Pro 5
  • Samsung Galaxy A8 (2016)
  • Samsung Galaxy S6
  • Samsung Galaxy S6 Active
  • Samsung Galaxy S6 Edge
  • Samsung Galaxy S6 Edge+
  • Samsung Galaxy Note 5
  • Fasetto LINK
  • MicroVision MV 7420-LCD SBC |}} |- | Exynos 7 Quad 7570 | 14 nm (Samsung 14LPC) | | 4 cores 1.4 GHz Cortex-A53 | Mali-T720 MP1 | 830 | 16.6 | rowspan="4" | LPDDR3 | rowspan="4" |32-bit Single-channel | 533 MHz (4.2 GB/sec) | rowspan="2" | LTE Cat.4 2CA 150 Mbit/s (DL) / 50 Mbit/s (UL) | Bluetooth 4.2, Wi-Fi 802.11a/b/g/n | Q3 2016 | {{Collapsible list|
  • Samsung Galaxy Amp Prime 3 (2018) (J337AZ)
  • Samsung Galaxy Express Prime 2 (2017) (J327A)
  • Samsung Galaxy Express Prime 3 (2018) (J337A)
  • Samsung Galaxy J2 Core (2018)
  • Samsung Galaxy J2 Core (2020)
  • Samsung Galaxy J2 Dash / Shine (2018) (J260A)
  • Samsung Galaxy J3 (2017) (J330)
  • Samsung Galaxy J3 (2018)
  • Samsung Galaxy J3 Pro (2017)
  • Samsung Galaxy J3 Star (2018) (J337T)
  • Samsung Galaxy J4 (2018)
  • Samsung Galaxy J5 Prime
  • Samsung Galaxy Xcover 4 |}} |- | Exynos 7 Quad 7578 | rowspan="2" | 28 nm (Samsung 28 nm HKMG) | rowspan="2" | | 4 cores 1.5 GHz Cortex-A53 | rowspan="2" |Mali-T720 MP2 | rowspan="2" |668 | rowspan="2" |26.7 | rowspan="3" |933 MHz (7.5 GB/sec) | rowspan="2" |Bluetooth, Wi-Fi | rowspan="2" |Q2 2015 | {{Collapsible list|
  • Samsung Galaxy A3 (2016) |}} |- | Exynos 7 Octa 7580 | rowspan="2" | 8 cores 1.6 GHz Cortex-A53 | rowspan="2" | LTE Cat.6 2CA 300 Mbit/s (DL) / 50 Mbit/s (UL) | {{Collapsible list|
  • Samsung Galaxy A5 (2016)
  • Samsung Galaxy A7 (2016)
  • Samsung Galaxy J7 (2015) (J700F, J700H)
  • Samsung Galaxy S5 Neo
  • Samsung Galaxy View |}} |- | Exynos 7 Octa 7870 | rowspan="9" | 14 nm (Samsung 14LPP) | | Mali-T830 MP1 | 700 | 22.4 | Bluetooth, Wi-Fi | Q1 2016 | {{Collapsible list|
  • Samsung Galaxy A2 Core
  • Samsung Galaxy A3 (2017)
  • Samsung Galaxy A6 (2018)
  • Samsung Galaxy Feel (SC-04J)
  • Samsung Galaxy Halo (J727AZ)
  • Samsung Galaxy J5 / J5 Pro (2017)
  • Samsung Galaxy J6 (2018)
  • Samsung Galaxy J7 (2016)
  • Samsung Galaxy J7 / J7 Pro (2017)
  • Samsung Galaxy J7 (2018)
  • Samsung Galaxy J7 Nxt / Core / Neo (2017) (16 GB & 32 GB)
  • Samsung Galaxy J7 Prime (2016)
  • Samsung Galaxy J7 Prime 2 (2018) (G611F)
  • Samsung Galaxy J7 Star (2018) (J737T, J737T1)
  • Samsung Galaxy M10 (2019)
  • Samsung Galaxy on Nxt
  • Samsung Galaxy On6
  • Samsung Galaxy On7 (2016)
  • Samsung Galaxy On7 Prime
  • Samsung Galaxy Wide 3 (J737S)
  • Samsung Galaxy Tab A 10.1 (2016)
  • Samsung Galaxy Tab Active 2 8.0 |}} |- | Exynos 7880 | | 8 cores 1.9 GHz Cortex-A53 | Mali-T830 MP3 | 950 | 91.2 | LPDDR4 | 32-bit (2×16-bit) Dual-channel | 1600 MHz (12.8 GB/sec) | LTE Cat.7 3CA 300 Mbit/s (DL) / 2CA 100 Mbit/s (UL) | Bluetooth, Wi-Fi | Q1 2017 | {{Collapsible list|
  • Samsung Galaxy A5 (2017)
  • Samsung Galaxy A7 (2017) |}} |- |Exynos 7872 | | 2 + 4 cores (2.0 GHz Cortex-A73 + 1.6 GHz Cortex-A53) GTS | Mali-G71 MP1 | 1200 | 28.8 | LPDDR3 | 32-bit Single-channel | 933 MHz (7.5 GB/sec) | LTE Cat.7 2CA 300 Mbit/s (DL) / Cat.13 2CA 150 Mbit/s (UL) | rowspan="2" | Bluetooth 4.2, Wi-Fi 802.11a/b/g/n | Q1 2018 | Meizu M6s |- |Exynos 7884A | rowspan="4" | | 2 + 6 cores (1.35 GHz Cortex-A73 + 1.35 GHz Cortex-A53) GTS | rowspan="4" | Mali-G71 MP2 | 450 | 21.6 | rowspan="4" | LPDDR4 | rowspan="4" | 32-bit (2×16-bit) Dual-channel | rowspan="4" | 1866 MHz (14.9 GB/sec) | LTE Cat.4 2CA 150 Mbit/s (DL) / 2CA 50 Mbit/s (UL) |Q3 2018 | {{Collapsible list|
  • Samsung Galaxy J3 Achieve (2018) (J337P)
  • Samsung Galaxy J3 Aura (2018) (J337R4)
  • Samsung Galaxy J3 V 3rd Gen (2018) (J337V, J337VPP) |}} |- |Exynos 7884 | 2 + 6 cores (1.6 GHz Cortex-A73 + 1.35 GHz Cortex-A53) GTS | 676 845 | 32.4 40.6 | rowspan="3" | Shannon 327 LTE Cat.12 3CA 600 Mbit/s (DL) / Cat.13 2CA 150 Mbit/s (UL) | rowspan="3" |Bluetooth 5.0, Wi-Fi 802.11a/b/g/n/ac | Q2 2018 | {{Collapsible list|
  • Samsung Galaxy A10e
  • Samsung Galaxy A10
  • Samsung Galaxy A20e
  • Samsung Galaxy A20
  • Samsung Galaxy J7 Aura (2018) (J737R4)
  • Samsung Galaxy J7 Crown (2018) (S767VL)
  • Samsung Galaxy J7 Refine (2018) (J737P)
  • Samsung Galaxy J7 V 2nd Gen (2018) (J737V, J737VPP)
  • Samsung Galaxy Jean2
  • Samsung Galaxy M10s| |- |Exynos 7885 | 2 + 6 cores (2.2 GHz Cortex-A73 + 1.6 GHz Cortex-A53) GTS | 1100 | 52.8 | Q1 2018 |{{Collapsible list|
  • Samsung Galaxy A7 (2018)
  • Samsung Galaxy A8 (2018)
  • Samsung Galaxy A8+ (2018)
  • Samsung Galaxy Feel 2 (SC-02L)
  • Samsung Galaxy J7 Duo (2018)
  • Samsung Galaxy XCover 4S |}} |- |Exynos 7904 | 2 + 6 cores (1.8 GHz Cortex-A73 + 1.6 GHz Cortex-A53) GTS | 770 | 37 | Q1 2019 |{{Collapsible list|
  • Samsung Galaxy A30
  • Samsung Galaxy A30s
  • Samsung Galaxy A40
  • Samsung Galaxy M20
  • Samsung Galaxy M30/A40s
  • Samsung Galaxy Tab A 10.1 (2019)
  • Samsung Galaxy Tab A 8.4 (2020) |}} |- | rowspan="2" |Exynos 8890Exynos 8 Octa 8890 | rowspan="2" | | 4 + 4 cores (2.3 GHz, up to 2.6 GHz in dual-core load, Exynos M1 "Mongoose" + 1.6 GHz Cortex-A53) GTS | Mali-T880 MP12 | rowspan="2" | 650 | 327.6 | rowspan="2" |LPDDR4 | rowspan="3" | 64-bit (2×32-bit) Dual-channel | rowspan="3" | 1794 MHz (28.7 GB/s) | rowspan="2" |Shannon 335 LTE

DL: LTE Cat 12 600 Mbit/s, 3CA UL: LTE Cat 13 150 Mbit/s, 2CA | rowspan="2" | Bluetooth 4.2, Wi-Fi 802.11a/b/g/n/ac | rowspan="2" | Q1 2016 | {{Collapsible list|* Meizu PRO 6 Plus (128 GB)

DL: LTE Cat 16 1050 Mbit/s, 5CA, 256-QAM)

UL: LTE Cat 13 150 Mbit/s, 2CA, 64-QAM | Bluetooth 5.0, Wi-Fi 802.11a/b/g/n/ac | Q2 2017 | {{Collapsible list|

  • Meizu 15 Plus
  • Samsung Galaxy S8
  • Samsung Galaxy S8+
  • Samsung Galaxy Note 8 (Korean and International versions) |}} |- |Exynos 9609 | rowspan="3" | | 4 + 4 cores (2.2 GHz Cortex-A73 + 1.6 GHz Cortex-A53) | rowspan="3" | Mali-G72 MP3 | | | rowspan="3" | LPDDR4X | rowspan="3" | 32-bit (2×16-bit) Dual-channel | rowspan="3" | 1600 MHz (12.8 GB/sec) | rowspan="3" | Shannon 337 LTE Cat.12 3CA 600 Mbit/s (DL) / Cat.13 2CA 150 Mbit/s (UL) | rowspan="3" | Bluetooth 5.0, Wi-Fi 802.11a/b/g/n/ac |Q2 2019 |{{Collapsible list|
  • Motorola One Vision
  • Motorola One Action |}} |- |Exynos 9610 | rowspan="2" | 4 + 4 cores (2.3 GHz Cortex-A73 + 1.7 GHz Cortex-A53) | 1053 | 113.7 |Q4 2018 |Samsung Galaxy A50 |- |Exynos 9611 |850 |91.8 |Q3 2019 |{{Collapsible list|
  • Samsung Galaxy A50s
  • Samsung Galaxy A51
  • Samsung Galaxy F41
  • Samsung Galaxy M21
  • Samsung Galaxy M21s
  • Samsung Galaxy M30s
  • Samsung Galaxy M31
  • Samsung Galaxy M31s
  • Samsung Galaxy Tab S6 Lite
  • Samsung Galaxy Xcover Pro |}} |- | Exynos 9810 (S5E9810) |10 nm (Samsung 10LPP) |118.94 | rowspan=3 | ARMv8.2-A | 4 + 4 cores (2.9 GHz Exynos M3 "Meerkat" + 1.9 GHz Cortex-A55) | Mali-G72 MP18 | 572 | 370.7 | rowspan="3" | LPDDR4X | rowspan="3" | 64-bit (4×16-bit) Quad-channel | 1794 MHz (28.7GB/s) | Shannon 360 LTE

DL: LTE Cat 18 1200 Mbit/s, 6CA, 256-QAM

UL: LTE Cat 13 200 Mbit/s, 2CA, 256-QAM | Bluetooth 5.0, Wi-Fi 802.11a/b/g/n/ac |Q1 2018 |{{Collapsible list|

| rowspan="2" | Dual-core NPU 1024 MAC units @ 933 MHz (1.86 TOPs) | rowspan="2" | Shannon 5000 LTE DL: Cat.20 2000 Mbit/s, 8CA, 256-QAM UL: Cat.13 316 Mbit/s, 3CA, 256-QAM | rowspan="2" | Bluetooth 5.0, Wi-Fi 802.11a/b/g/n/ac/ax | Q1 2019 | {{Collapsible list|

List of Exynos Wearable SoCs

::data[format=table]

SoCCPUGPUMemory technologyNPUModemConnectivityReleasedDevices usingModel numberFab.Die size (mm2)ISAμarchμarchFrequency (MHz)Performance GFLOPS (FP32)TypeBus width (bit)Bandwidth (GB/s)
Exynos 4 Single 421232 nm (Samsung 32 nm HKMG)ARMv7-A1 core 0.8 GHz Cortex-A9Mali-400 MP440014.4LPDDR2, DDR2 or DDR364-bit (2×32-bit) Dual-channel400 MHz (6.4 GB/s)rowspan=7Q3 2013
Exynos 2 Dual 325028 nm (Samsung 28 nm HKMG)2 cores 1.0 GHz Cortex-A7Mali-400 MP24007.2LPDDR2 or
LPDDR3Q2 2014
Exynos 7 Dual 7270
(SC57270)14 nm (Samsung 14LPP)ARMv8-A2 cores 1.0 GHz Cortex-A53Mali-T720 MP166713.3LPDDR332-bit (2×16-bit) Dual-channelLTE Cat.4 2CA 150 Mbit/s (DL) / 50 Mbit/s (UL)Bluetooth 4.2, Wi-Fi 4, GPS, GLONASS, BeiDou, Galileo, eMMCQ3 2016{{Collapsible list
::

|- | Exynos 9110 (SC59110XSC) |10 nm (Samsung 10LPP) | | 2 cores 1.15 GHz Cortex-A53 | LPDDR4 LPDDR4X | | rowspan="4" | Shannon 3012

LTE Cat.4 2CA 150 Mbit/s (DL) / Cat.5 75 Mbit/s (UL) | Q3 2018 |{{Collapsible list|

List of Exynos modems

Exynos Modem 303

Exynos Modem 333

Exynos Modem 5100

  • Supported Modes: 5G NR Sub-6 GHz, 5G NR mmWave, LTE-FDD, LTE-TDD, HSPA, TD-SCDMA, WCDMA, CDMA, GSM/EDGE
  • Downlink Features:
    • 8CA (Carrier Aggregation) in 5G NR
    • 8CA 1.6 Gbit/s in LTE Cat. 19
    • 4x4 MIMO
    • FD-MIMO
    • Up to 256-QAM in sub-6 GHz, 2 Gbit/s
    • Up to 64-QAM in mmWave, 6 Gbit/s
  • Uplink Features:
    • 2CA (Carrier Aggregation) in 5G NR
    • 2CA in LTE
    • Up to 256-QAM in sub-6 GHz
    • Up to 64-QAM in mmWave
  • Process: 10 nm FinFET Process
  • Paired with: Exynos 9820 and Exynos 9825
  • Devices using: Samsung Galaxy S10 and Samsung Galaxy Note 10

Exynos Modem 5123

  • Supported Modes: 5G NR Sub-6 GHz, 5G NR mmWave, LTE-FDD, LTE-TDD, HSPA, TD-SCDMA, WCDMA, CDMA, GSM/EDGE
  • Downlink Features:
    • 8CA 1024-QAM in LTE Cat. 24 (3.0 Gbit/s )
    • Up to 256-QAM in sub-6 GHz (5.1 Gbit/s)
    • Up to 64-QAM in mmWave (7.35 Gbit/s)
  • Uplink Features:
    • 2CA 256-QAM in LTE Cat. 22 (422 Mbit/s )
    • Up to 256-QAM in sub-6 GHz
    • Up to 64-QAM in mmWave
  • Process: 7 nm FinFET Process
  • Paired with: Exynos 990, Exynos 2100, and Google Tensor
  • Devices using: Samsung Galaxy S20, Samsung Galaxy Note 20, Samsung Galaxy S21, and Google Pixel 6

Exynos Modem 5300

Exynos Modem 5400

  • Supported Modes: 3GPP Release 17 5G NR Sub-6 GHz & mmWave (SA/NSA/NTN), LTE-FDD, LTE-TDD, HSPA, WCDMA, GSM/EDGE, NB-IoT NTN
  • Downlink Features:
    • 5G FR1
    • 5G FR2
      • Up to 14.8 Gbit/s
      • Up to 256-QAM
      • 2x2 MIMO
      • 1000 MHz carrier aggregation
  • Uplink Features: Up to 3.9 Gbit/s
    • 5G FR1
      • Up to 256-QAM
      • 2x2 MIMO
      • 400 MHz carrier aggregation
    • 5G FR2
      • Up to 64-QAM
      • 2x2 MIMO
      • 800 MHz carrier aggregation
  • Process: 4 nm EUV
  • Paired with: Exynos 2400 and Google Tensor G4, G5
  • Devices using it: Samsung Galaxy S24 and Google Pixel 9, Pixel 10

List of Exynos IoT SoCs

Exynos i T200

  • CPU: Cortex-M4 @ 320 MHz, Cortex-M0+ @ 320 MHz
  • WiFi: 802.11b/g/n Single band (2.4 GHz)
  • On-chip Memory: SRAM 1.4 MB
  • Interface: SDIO/ I2C/ SPI/ UART/ PWM/ I2S
  • Front-end Module: Integrated T/R switch, Power Amplifier, Low Noise Amplifier
  • Security: WEP 64/128, WPA, WPA2, AES, TKIP, WAPI, PUF (Physically Unclonable Function)

Exynos i S111

  • CPU: Cortex-M7 200 MHz
  • Modem: LTE Release 14 NB-IoT
    • Downlink: 127 kbit/s
    • Uplink: 158 kbit/s
  • On-chip Memory: SRAM 512 KB
  • Interface: USI, UART, I2C, GPIO, eSIM I/F, SDIO(Host), QSPI(Single/Dual/Quad IO mode), SMC
  • Security: eFuse, AES, SHA-2, PKA, Secure Storage, Security Sub-System, PUF
  • GNSS: GPS, Galileo, GLONASS, BeiDou

List of Exynos Automotive SoCs

Exynos Auto series

::data[format=table] | SoC | CPU | GPU | Memory technology | NPU | Modem | Connectivity | Released | Vehicles | Model number | Fab. | Die size (mm2) | μarch | Frequency (MHz) | Performance GFLOPS (FP32) | Type | Bus width (bit) | Bandwidth (GB/s) | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | Exynos Auto 8890 (SGA8890A) | 14nm (Samsung 14LPP) | | 4 + 4 cores (2.6 GHz Exynos M1 "Mongoose" + 1.6 GHz Cortex-A53) (ARMv8-A) | Mali-T880 MP12 | 650 | 327.6 | LPDDR4 | 64-bit (2×32-bit) Dual-channel | | rowspan="2" | Shannon LTE DL: LTE Cat 12 600Mbit/s, 3CA UL: LTE Cat 13 150Mbit/s, 2CA | Bluetooth 4.2, Wi-Fi 5 | Q1 2017 | Audi A4 (B9) (2019–2025) | | | | | Exynos Auto T5123 | 7nm (Samsung 7LPP) | | 2 cores Cortex-A55 (ARMv8.2-A) | | | | LPDDR4X | 16-bit (1×16-bit) Single-channel | 2133 MHz (8.5 GB/s) | LTE DL: Cat.24 3000 Mbit/s, 8CA, 1024-QAM UL: Cat.22 422 Mbit/s, 2CA, 256-QAM 5G NR Sub-6 GHz DL: 4.55 Gbit/s UL: 1.92 Gbit/s | | Q4 2021 | | | | | | | url=https://www.samsung.com/semiconductor/minisite/exynos/products/automotiveprocessor/exynos-auto-v7/|title=Exynos Auto V7 Processor: Specs, Features Samsung Exynos|website=Samsung Semiconductor|language=en|access-date=2021-12-03}} | 8nm (Samsung 8LPP) | | 8 cores 1.5 GHz Cortex-A76 (ARMv8.2-A) | 2× Mali-G76 (MP8 + MP3) | | | LPDDR4X LPDDR5 | 128-bit (8×16-bit) Octa-channel | 2133 MHz (68.2 GB/s) | NPU | | | Q4 2021 | | | | | | url=https://www.samsung.com/semiconductor/minisite/exynos/products/automotiveprocessor/exynos-auto-v9/|title=Exynos Auto V9 Processor: Specs, Features Samsung Exynos|website=Samsung Semiconductor|language=en|access-date=2020-01-05}} | 8 cores 2.1 GHz Cortex-A76 (ARMv8.2-A) | 3× Mali-G76 (MP12 + MP3 + MP3) | | | | NPU (8.5 TOPS) | | Bluetooth 5.0, Wi-Fi 6 | Q1 2019 | | | | | | | | | | title=Exynos Auto V920 Processor |url=https://semiconductor.samsung.com/processor/automotive-processor/exynos-auto-v920 |access-date=2023-06-25 |website=Samsung Semiconductor Global |language=en}} | 5 nm (Samsung 5LPE) | | 10 cores (4+4+2) ARM Cortex-A78AE (ARMv8.2-A) | Samsung Xclipse GPU | | | LPDDR5 | 128-bit (8×16-bit) Octa-channel | 3200 MHz (102.4 GB/s) | NPU (23.1 TOPS) | | | 2025 | | | | | ::

The Exynos Auto V9 comes with additional features such as:

The Exynos Auto V920 comes with additional features such as:

  • Tensilica HiFi 5 DSP
  • Supports up to 6 Displays (3x 5K (8K2K) + 3x DFHD (38401440)), and up to 12 Cameras (3x MIPI CSI 4lanes)
  • Supports 4K 240fps decoding (HEVC), 4K 120fps encoding
  • 2x USXGMII (10 Gbit/s) Ethernet

Controversies

Performance discrepancies

Samsung's flagship smartphones (except the foldable Galaxy Z series) released between 2016 (Galaxy S7) and 2022 (Galaxy S22), as well as the Galaxy S24 and S24+, utilizes both the Exynos and Qualcomm Snapdragon SoCs, with the latter being used mainly in models for American and East Asian (except South Korea) markets, and other regions using the former.

While both the Exynos and Snapdragon versions Galaxy S7, S8, and Note 8 has similar performances, the Exynos 9810-based models of Galaxy S9 and Note 9 has worse performance and efficiency than the Snapdragon 845 models. The Exynos 9820 used in Galaxy S10, which utilizes older CPU cores and inferior manufacturing process than the Snapdragon 855, continued this discrepancy.

Stability issues

Some of Samsung's phone models released between 2019 - 2021 that used Exynos 9611 processor were widely reported by customers having random restarts, freezing and bootloops. Specific phone models include the Galaxy A50, A50s, A51, M30s, M21, M31, M31s, F41 and Galaxy M21 (2021). Although the issue went unreported on mainstream media and very few YouTube reviewers covered it based on user reports, the issues were widely documented on Samsung Members official community forum as well as Reddit and other forums. The impact was significant with hundreds of user posts and comments between 2020 and 2023. Samsung did free board replacements for some early customers who had the phone in warranty. However, the majority of people faced the issue after the 12-month warranty period, mostly starting 1.5 – 3 years after purchase. Samsung never officially acknowledged the issue and no software update was released to solve the problem, although the phones received the promised minimum 4 year security updates. The only official solution available to customers was to purchase replacement board that cost around 60-70% of the phone's cost. Most users resorted to risky yet cheaper third party repair that required re-soldering (also called reballing) the CPU & RAM PoP (Package on Package) which managed to solve issue according to dozens of user reports on said forums.

Similar platforms

References

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