Apacer Launches 32-Bit SODIMM for Arm & RISC-V Systemsby Anton Shilov on November 26, 2018 5:00 PM EST
Apacer has announced a lineup of 32-bit SO-DIMMs designed for systems based on processors featuring Arm, RISC, or RISC-V architectures. The memory modules will enable SoC developers to take advantage of capacity and performance flexibility offered by modular memory solutions.
Memory organization is a bit different between x86 and Arm/RISC-V based systems. The former typically feature one or more 64-bit memory interfaces to connect one or more 64-bit memory modules (or just a set of DRAM chips) in a bid to maximize raw memory bandwidth and capacity. By contrast, Arm or RISC-V powered SoCs use one or more 16-bit memory interfaces for granularity, power, and efficiency (to maximize channel utilization and effective memory bandwidth) reasons. Since the vast majority of Arm or RISC-V based systems are either mobile or special purpose, most of the memory subsystems are custom-designed with only a handful of SoCs featuring “wide” memory interfaces. As a result, most of them cannot use industry-standard 64-bit DIMMs and rely on soldered down memory.
The situation is changing with release of Arm-powered server processors, but many of emerging applications still do not need 64 or 128-bit DRAM subsystems, but could take advantage of flexibility that memory modules provide in general. Apacer has offered 32-bit DDR2 and DDR3 modules for such devices for years and is now addressing this need with its new 32-bit DDR4 SO-DIMMs.
By using modules instead of soldered-down memory subsystems, developers of applications running processors featuring Arm, RISC, or RISC-V architectures will be able to save PCB space, provide manufacturing flexibility, and ensure DRAM upgradeability of their products.
The family of Apacer’s 32-bit memory modules includes 2 GB, 4 GB, and 8 GB SO-DIMMs operating at DDR4-2133, DDR4-2400, and DDR4-2667 speed bins at 1.2 Volts. The modules are based on various DRAM chips supporting industrial-grade wide-temperature ranges, so they can power a variety of applications. Apacer says that its 32-bit SO-DIMMs are compatible with Arm-based SoCs by NXP, Freescale, Marvell, Cavium, and Texas Instruments as well as “the latest RISC-V 32-bit processors.” Meanwhile, considering the fact that the modules are 32-bit wide, it is not guaranteed that they will work with all SoCs. Given the relatively limited market for such SO-DIMMs, expect them to be priced accordingly.
Apacer did not say when to expect the modules to become available and how exactly it plans to market them (to enable end-user upgradeability), but the products are already listed at the company’s website, so expect the first customers to get their 32-bit DDR4 SO-DIMMs shortly.
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Source: Apacer (via TechPowerUp)
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timecop1818 - Tuesday, November 27, 2018 - linkConsidering they're listing Conformal coating/Underfill as optional things on the product page, I'd imagine all these will be custom-made to order for a specific customer.
blu42 - Tuesday, November 27, 2018 - linkSo basically a half-populated dimm for those boards that still want to use dimms but on a narrower 32-bit bus (where you'd waste half the capacity of a fully-populated dimm).
BTW, this part reads weirdly: 'processors featuring Arm, RISC, or RISC-V architectures'. RISC is not an architecture but a class, or a paradigm, of architectures, and both arm and risc-v are RISC architectures.
hamjudo - Tuesday, November 27, 2018 - linkWould it look better as Arm, RISC-V, and other RISC class members?
Alas, even if it is electrically compatible with the SoC from a Raspberry Pi, the GPU is stuck at 1GB. All memory access goes through the GPU. So no 8GB Raspberry Pi's until the next generation.
blu42 - Tuesday, November 27, 2018 - link> Would it look better as Arm, RISC-V, and other RISC class members?
Definitely. BTW, there's a MIPS (another RISC) consumer SBC on the market right now, which SBC could make good use of these half-populated dimms -- the Baikal-T1 BFK 3.1 board uses so-dimms on a 32-bit bus.
priya77 - Sunday, December 2, 2018 - linkWhere I can buy it?