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Socket AM1
Socket AM1
Socket AM1
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Socket AM1
Release dateApril 2014
TypePGA-ZIF
Chip form factorsFlip-chip
Contacts721
FSB protocolPCI Express
Voltage range1.4V
Processor dimensions35mm × 35mm
1,225mm2
ProcessorsDesktop APU products Jaguar- and Puma-based (Athlon- and Sempron-SoCs)
PredecessorFM2+
SuccessorAM4
Memory supportDDR3
This article is part of the CPU socket series

Socket AM1 is a socket designed by AMD, launched in April 2014[1] for desktop SoCs in the value segment. Socket AM1 is intended for a class of CPUs that contain both an integrated GPU and a chipset, essentially forming a complete SoC implementation, and as such has pins for display, PCI Express, SATA, and other I/O interfaces directly in the socket. AMD's first compatible CPUs, designated as APUs, are 4 socketable chips in the Kabini family of the Jaguar microarchitecture, marketed under the Athlon and Sempron names and announced on April 9, 2014.[2] Socket AM1 was initially branded as Socket FS1b before its release.[3]

The brand names are Athlon and Sempron. The underlying microarchitectures are Jaguar and Puma. All products are SoCs, this means the Chipset is on the die of the APU and not on the motherboard.

While the AMD mobile CPUs are available in a 722-pin package Socket FS1, it is not clear whether these notebook CPUs are compatible with Socket AM1 or vice versa.

Its mobile counterpart is Socket FT3 (BGA-769).

At least one board is supported by coreboot.[4]

Products

[edit]

APUs

[edit]
Brand Model CPU GPU PCIe
lanes 		Memory
support 		TDP Release
date 		Price
(USD)
Cores
(threads) 		Clock rate (GHz) Cache Model Config[a] Clock
(GHz)
Base Boost L1 L2
Sempron 2650 2 (2) 1.45 128 KB 1 MB Radeon R3
Graphics 		128:8:4
2 CU 		0.40 4
PCIe 2.0 		DDR3-1333
single-channel 		25 W Apr 9, 2014 $34
3850 4 (4) 1.30 256 KB 2 MB 0.45 DDR3-1600
single-channel 		$39
Athlon 5150 1.60 0.60 $49
5350 2.05 $59
5370 2.20 OEM
  1. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

See also

[edit]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Socket AM1

View on Grokipedia
from Grokipedia
Socket AM1 is a developed by for use in low-cost desktop computers, featuring a zero-insertion-force (PGA) design that supports accelerated processing units () based on the Kabini architecture. Introduced on April 9, 2014, it targets mainstream and emerging markets with affordable, upgradable systems offering balanced performance for everyday computing tasks. The socket accommodates quad-core and dual-core from the and Sempron series, all with a (TDP) of 25 W, integrating Jaguar CPU cores and Radeon (GCN) graphics capable of 11.2 support. Key specifications include a 721-pin configuration, also known as FS1b, with single-channel support up to 1600 MHz and a maximum capacity of 32 GB across two slots. The platform's integrated I/O and energy efficiency emphasize cost-effectiveness, providing up to three times the compute performance of comparable competitors at launch, making it suitable for entry-level PCs, thin clients, and basic multimedia applications. Supported processors include quad-core models such as the Athlon 5350 and 5150, and Sempron 3850, alongside the dual-core Sempron 2650; later additions like the Athlon 5370 (2.2 GHz) extended compatibility, but the socket was discontinued after 2016 with no further processor releases.

Technical Specifications

Physical Design

The Socket AM1 employs a 721-pin (PGA) with (ZIF) mechanism, facilitating easy installation and removal of compatible and Sempron APUs in desktop systems. This design supports the integrated architecture of these low-power processors, where the socket serves as the interface between the APU package and the . The associated processor package measures 35 mm × 35 mm, utilizing a lidded organic micro (UOF721) configuration with a total package area of 1,225 mm². This compact form factor optimizes space for value-oriented s, enabling efficient thermal and mechanical integration in entry-level desktop builds. Mechanical keying and alignment features ensure correct insertion and prevent damage from misalignment during installation. In comparison to its predecessor, Socket FM2+, the AM1 represents an evolution tailored for value-segment desktops, featuring a reduced pin count and smaller package dimensions versus the FM2+'s 906-pin, 40 mm × 40 mm layout, to accommodate lower-power with integrated I/O. The pinout layout follows a rectangular grid pattern in a 28 × 28 configuration.

Electrical and Signaling Characteristics

Socket AM1 utilizes a nominal core voltage of 1.4 V to power its integrated APUs. Motherboards supporting this socket incorporate an integrated voltage regulation module (VRM) tailored for efficient power delivery, given the platform's low-power focus; all compatible APUs operate within a strict thermal design power (TDP) limit of 25 W, enabling simple VRM designs without extensive cooling. Signaling protocols adhere to PCIe 2.0 standards, with the SoC providing up to 4 lanes for expansion slots and peripherals. The integrated I/O controller further supports USB 2.0 and (5 Gb/s) interfaces directly from the APU. The TDP envelope of 25 W defines the socket's thermal guidelines, recommending active cooling to keep junction temperatures below 90 °C and case temperatures under 76 °C for reliable operation. In contrast to its mobile counterpart Socket FT3, which accommodates configurable TDPs as low as 6 W for battery-optimized systems, Socket AM1 employs desktop-oriented electrical tolerances suited to sustained 25 W operation in AC-powered environments.

Supported Processors

Athlon APUs

The Athlon APUs for Socket AM1 are based on the Jaguar microarchitecture implemented in the Kabini system-on-chip (SoC) design, featuring four CPU cores without simultaneous multithreading support, for a total of four threads. Each core includes 32 KB of L1 instruction cache and 32 KB of L1 data cache, resulting in 64 KB of L1 cache per core, while the cores share a unified 2 MB L2 cache to optimize power efficiency and area in low-TDP desktop applications. Fabricated on a 28 nm process, these APUs integrate CPU, GPU, and I/O components to deliver balanced performance for entry-level computing tasks such as web browsing, office productivity, and light multimedia. The primary retail models are the Athlon 5350, operating at a base clock speed of 2.05 GHz with a 25 W thermal design power (TDP), and the Athlon 5150 at 1.6 GHz with the same TDP, both paired with integrated Radeon R3 graphics featuring two compute units (128 shader processors) clocked at 600 MHz. A higher-clocked variant, the Athlon 5370 at 2.2 GHz, shares the same TDP, core configuration, and graphics specifications, and was available for both original equipment manufacturers (OEMs) and retail. These models emphasize cost-effective quad-core processing over high performance, targeting budget desktops with upgradeable socketed designs. The integrated Radeon R3 graphics, built on AMD's (GCN) architecture, support DirectX 11.2 for 3D rendering and acceleration in compatible applications, alongside 4.3 and 1.2 for compute tasks. Video processing capabilities include hardware decoding via the (UVD 4.2), handling formats such as H.264, , and MPEG-4 up to , with encoding support through the (VCE 2.0) for efficient media playback and streaming in entry-level systems. The GPU also drives up to three displays via , , and VGA outputs. All for Socket AM1 were launched in 2014, coinciding with the platform's debut on April 9.
ModelCores/ThreadsBase Clock (GHz)L1 Cache (Total)L2 CacheGPU (Radeon R3)TDP (W)
51504/41.6256 KB2 MB600 MHz, 2 CUs25
53504/42.05256 KB2 MB600 MHz, 2 CUs25
53704/42.2256 KB2 MB600 MHz, 2 CUs25

Sempron APUs

The Sempron APUs for Socket AM1 represent AMD's entry-level processor offerings in the value segment, utilizing the Jaguar microarchitecture within the Kabini system-on-chip (SoC) family to deliver cost-optimized performance for basic computing tasks. These APUs integrate dual- or quad-core CPU configurations with essential integrated graphics, targeting budget desktops and supporting a 25 W thermal design power (TDP) envelope suitable for low-power systems. Each Jaguar core features 64 KB of L1 cache, split evenly between 32 KB instruction cache and 32 KB data cache, while L2 cache is shared at 1 MB per dual-core module, resulting in 1 MB total for dual-core variants and 2 MB for quad-core models. Key models include the Sempron 2650, a dual-core APU with a fixed clock speed of 1.45 GHz, and the Sempron 3850, a quad-core variant operating at 1.3 GHz, both lacking dynamic turbo boosting capabilities typical of higher-end implementations. These processors were introduced as part of the initial Socket AM1 lineup, with retail availability beginning in May 2014 following an April announcement, marking the first socketed Kabini-based for desktop use. Both models were offered in retail packaging, though some configurations saw limited OEM distribution for pre-built systems.
ModelCores/ThreadsBase Clock (GHz)L2 Cache (MB)GPU ModelGPU Compute Units / Clock (MHz)TDP (W)
Sempron 26502/21.451Radeon R3 (HD 8240)2 / 40025
Sempron 38504/41.302Radeon R3 (HD 8280)2 / 45025
The integrated Radeon R3 graphics in these Sempron APUs provide basic display output capabilities, supporting VGA and HDMI interfaces for essential video playback and light productivity, with 128 shader processors based on the Graphics Core Next (GCN) architecture but limited to two compute units for minimal power draw. This configuration prioritizes affordability over graphical performance, enabling shared system memory up to DDR3-1600 while maintaining compatibility with the platform's overall 25 W TDP constraints.

Platform Architecture

Memory and Storage Support

Socket AM1 incorporate an on-die that supports single-channel , designed for cost-effective value desktop systems. This configuration typically accommodates two slots, enabling a maximum memory capacity of 32 GB using unbuffered modules. The supported memory speeds include and , with for modules, although performance is optimized for the higher 1600 MHz frequency to maximize bandwidth in integrated workloads. The theoretical peak bandwidth reaches 12.8 GB/s in single-channel DDR3-1600 operation, calculated as 1600 MT/s × 64 bits / 8 bits per byte, providing sufficient throughput for entry-level tasks but limiting multi-threaded or graphics-intensive applications compared to dual-channel designs. This single-channel was adopted primarily for cost reduction in the platform's target market segment. For storage, Socket AM1 platforms integrate SATA 6 Gbit/s interfaces directly within the APU and supporting chipset, offering up to four ports in total across compatible motherboards—typically two from the APU and additional ports via an integrated controller. These ports support AHCI mode and hot-plug functionality for standard 2.5-inch and 3.5-inch SATA drives, but the platform lacks native NVMe support due to its pre-2014 design era and limited PCIe resources dedicated to storage. ECC memory is supported for unbuffered modules, though the platform focuses on non-ECC for cost-effective consumer applications.

Integrated I/O and Expansion

The Socket AM1 platform integrates a comprehensive set of I/O controllers within its , primarily derived from the Kabini and Beema architectures, enabling direct support for peripheral connectivity without requiring a separate southbridge chip. This integrated design simplifies layouts and reduces costs for entry-level systems. The USB implementation features an xHCI controller that supports up to 2 ports (5 Gbps) and up to 14 USB 2.0 ports (480 Mbps), allowing for flexible port allocation via onboard headers and rear I/O panels on compatible motherboards. The integrated GPU in AM1 APUs provides multi-display output capabilities through standard interfaces, including VGA, DVI-D, and , with support for resolutions up to 4K (4096x2160) at 30 Hz and at 60 Hz for playback and basic setups. This configuration caters to budget desktop users needing integrated graphics for office tasks or media consumption. HDMI ports typically include HDCP compliance for protected content. Expansion options are handled via PCIe 2.0 lanes directly from the APU, with a primary x4 lane allocated for discrete graphics cards, enabling modest upgrades like low-profile GPUs for improved gaming or compute performance. Additional x1 PCIe lanes support peripherals such as controllers (often -based) and optional modules via mini-PCIe slots. Audio integration includes an 8-channel High Definition Audio (HD Audio) codec, commonly compatible with ALC887, which delivers 192 kHz/24-bit playback and supports configurations for consumer audio needs. Due to the compact SoC design, AM1 motherboards are predominantly Micro-ATX form factor, featuring limited expansion slots—typically one PCIe x16 (electrically x4) and one or two PCIe x1—to prioritize cost efficiency over high-end configurability. This setup suits slim or small-form-factor cases, with onboard I/O hubs handling the bulk of connectivity to minimize external add-ons.

Development and Market Context

Release History

Socket AM1 was announced by on March 4, 2014, as a new value-oriented platform featuring socketed "Kabini" APUs based on CPU cores and graphics. The platform was designed as a low-cost alternative to the recently introduced FM2+, targeting emerging markets and OEM system builders by integrating the CPU, GPU, and I/O controller into a single socketed APU, which eliminated the need for a discrete and significantly reduced complexity and costs. On April 9, , AMD released the first products for Socket AM1, including the quad-core Athlon 5350 (priced at $59), Athlon 5150 ($49), Sempron 3850 ($39), and dual-core Sempron 2650 ($34), all manufactured on a 28 nm process by . These became globally available starting in Q2 , with retail systems and components reaching consumers shortly thereafter. The initial launch emphasized affordability for budget PCs, with AMD partnering with motherboard manufacturers such as , MSI, and ASUS to produce compatible boards in Micro-ATX and form factors, supporting features like and 6 Gb/s without additional hardware. This approach aimed to enable sub-$300 complete systems for entry-level computing in developing regions and small-form-factor applications.

Compatibility and Succession

Socket AM1 processors are not compatible with previous AMD sockets such as FM2 or FM2+, as the socket features a distinct pinout and electrical configuration optimized for low-power , preventing direct interchangeability even with updates. While AM1 shares some architectural traits with the broader APU ecosystem, including integrated graphics and Jaguar-based cores, it operates as a standalone platform without backward or forward to mobile variants like FS1b or FT3, which use soldered BGA packaging rather than socketed designs. The platform eliminates discrete chipsets entirely, integrating all essential I/O functions—including , PCIe lanes, ports, and USB controllers—directly onto the APU die to reduce costs and simplify designs. Motherboard manufacturers thus provide only basic southbridge-like features, such as additional USB headers or audio codecs, relying on the APU for core platform connectivity. AMD ceased development of new APUs for Socket AM1 after the initial Kabini-based and Sempron releases in 2014, followed by one additional APU (the ) in 2016, with production ending thereafter. This short lifecycle, confined primarily to 2014-2016, left users without viable upgrade paths beyond the original dual- and quad-core models, contributing to rapid as performance demands outpaced the platform's single-channel DDR3 and limited PCIe support by around 2017. Socket AM1 was succeeded by in 2016, which introduced support for the architecture and addressed key limitations of AM1 by enabling dual-channel DDR4 memory, higher PCIe lane counts, and broader compatibility across desktop and APU segments. This transition marked the end of AM1's active ecosystem, as consolidated its offerings under AM4 to streamline future upgrades.

References

  1. https://ir.amd.com/news-events/press-releases/detail/507/amd-introduces-new-socketed-amd-sempron-and-amd-athlon-apu-products-with-am1-platform
  2. https://en.wikichip.org/wiki/amd/packages/socket_am1
  3. https://www.msi.com/Motherboard/AM1M/Specification
  4. https://dlcdnet.asus.com/pub/ASUS/mb/SocketAM1/AMD_SoC_APU/AM1M-A/E9004_AM1M-A.pdf
  5. https://www.amd.com/content/dam/amd/en/documents/archived-tech-docs/design-guides/52121_FS1b_TDG_Pub.pdf
  6. https://www.techpowerup.com/cpu-specs/athlon-5350.c2516
  7. https://linuxreviews.org/AMD_Socket_AM1
  8. https://gamersnexus.net/news/1346-amd-am1-socket-type
  9. https://pcper.com/2013/05/jaguar-gcn-the-compute-architecture-for-temash-and-kabini/
  10. https://www.amd.com/en/products/specifications/processors.html
  11. https://www.techpowerup.com/cpu-specs/sempron-2650.c2513
  12. https://www.techpowerup.com/cpu-specs/sempron-3850.c2515
  13. https://www.servethehome.com/amd-sempron-2650-benchmarks-review-dual-core-am1-soc/
  14. https://dlcdnet.asus.com/pub/ASUS/mb/SocketAM1/AM1I-A/E8963_AM1I-A.pdf
  15. https://www.msi.com/Motherboard/AM1I/Specification
  16. https://www.tomshardware.com/reviews/overclocking-amd-socket-am1%2C4444.html
  17. https://download.asrock.com/Manual/AM1H-ITX.pdf
  18. https://d1io3yog0oux5.cloudfront.net/_eed9d35a34f0be761d44c993f0bbd98f/amd/news/2014-04-09_AMD_Introduces_New_Socketed_AMD_Sempron_and_AMD_507.pdf
  19. https://wccftech.com/amd-apu-performance-numbers-revealed-details-launch-schedule-richland-kabini-apus-leaked/
  20. https://ir.amd.com/news-events/press-releases/detail/500/amd-announces-new-am1-platform
  21. https://www.computing.co.uk/news/2331591/amd-unveils-single-chip-am1-platform-for-low-cost-pcs
  22. https://www.techpowerup.com/198214/gigabyte-rolls-out-a-pair-of-socket-am1-motherboards
  23. https://www.tomshardware.com/news/asus-am1m-a-am1i-a-am1-motherboard%2C26306.html
  24. https://pcper.com/2014/03/msi-launches-am1i-mini-itx-motherboard-for-socketed-kabini-socs/
  25. https://www.techpowerup.com/197081/amd-fs1b-soc-socket-to-be-branded-am1
  26. https://www.cpu-world.com/CPUs/Jaguar/AMD-Athlon%205370.html
  27. https://en.wikichip.org/wiki/amd/packages/socket_am4
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