5G NR mmWave (DL = 7350 Mbit/s and UL = 3670 Mbit/s).List of ARMv7 Exynos SoCs SoCģ2-bit Dual-channel 200 MHz LPDDR, LPDDR2, or DDR2 In June 2021, there was news that Samsung could hire engineers from AMD and Apple to form a new custom architecture team. SARC and ACL will still continue development of custom SoC, AI, and GPU. 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. On 1 October 2019, rumors emerged that Samsung had laid off their custom CPU core teams at SARC. 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. NotebookCheck reported that Samsung are targeting 2021 for their first SoC with AMD Radeon GPU IP. On 3 June 2019, AMD and Samsung announced a multi-year strategic partnership in mobile graphics IP based on AMD Radeon GPU IP. Samsung's custom CPU cores were named Mongoose for four generations, named M1 through M4, and Exynos SoCs with such cores were never on par in power efficiency or performance with their Qualcomm Snapdragon equivalents.
In 2017 the San Jose Advanced Computing Lab (ACL) was opened to continue custom GPU IP development. After a three-year design cycle, SARC's first custom CPU core called the M1 was released in the Exynos 8890 in 2016. In 2012, Samsung began development of GPU IP called "S-GPU". The SARC develop high-performance, low-power, complex CPU and System IP (Coherent Interconnect and memory controller) architectures and designs. Samsung has hired many ex-AMD, ex-Intel, ex-ARM and various other industry veterans. On 2010 Samsung founded a design center in Austin called Samsung's Austin R&D Center (SARC). Samsung also changed the name of several SoCs, Exynos 3110 to Exynos 3 Single, Exynos 42 to Exynos 4 Dual 45 nm, and Exynos 4 Dual 32 nm and Exynos 5250 to Exynos 5 Dual. The Exynos 4 Quad SoC uses 20% less power than the SoC in Samsung Galaxy S II. On 26 April 2012, Samsung released the Exynos 4 Quad, which powers the Samsung Galaxy S III and Samsung Galaxy Note II. 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.
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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. 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. 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 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".
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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. In early 2011, Samsung first launched the Exynos 4210 SoC in its Samsung Galaxy S II mobile smartphone. It was developed in partnership with Intrinsity using their FastCore and Fast14 technology. This ARM Cortex-A8 was code-named Hummingbird. 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. See also: List of Samsung system on chips