(Image credit: Tom’s Hardware)
Although NAND memory has replaced traditional hard disk drives in the vast majority of client PCs, HDDs can still offer capacities at costs not achievable by solid-state drives today, particularly in the data center space. In a bid to retain the relevance of hard drives for years to come, Western Digital on Tuesday announced two distinct families of HDDs: one aimed at applications that require maximum performance and decent IOPS-per-TB, another designed for power-optimized applications that value limited power consumption and predictable performance.
High-Bandwidth HDD
Image 1 of 3
(Image credit: Western Digital)
WD’s original dual-actuator High-Bandwidth HDD architecture — which is already bei…
(Image credit: Tom’s Hardware)
Although NAND memory has replaced traditional hard disk drives in the vast majority of client PCs, HDDs can still offer capacities at costs not achievable by solid-state drives today, particularly in the data center space. In a bid to retain the relevance of hard drives for years to come, Western Digital on Tuesday announced two distinct families of HDDs: one aimed at applications that require maximum performance and decent IOPS-per-TB, another designed for power-optimized applications that value limited power consumption and predictable performance.
High-Bandwidth HDD
Image 1 of 3
(Image credit: Western Digital)
WD’s original dual-actuator High-Bandwidth HDD architecture — which is already being validated by the company’s clients — allows multiple heads on multiple tracks to read and write simultaneously, thus exploiting internal parallelism to deliver 2X bandwidth of traditional 3.5-inch HDDs.
The next step for Western Digital is its Dual-Pivot High-Bandwidth HDD architecture is to add a second, fully independent actuator on a separate pivot inside the same 3.5-inch drive. Each actuator controls its own set of heads and enables two independent read/write operations at once, thus delivering up to 2X sequential I/O performance without reducing capacity. Dual-Pivot HDDs are currently in the lab and are targeted to become available in 2028. Over time, the two architectures will be combined to deliver 4X higher I/O performance compared to traditional hard drives.
Power-Optimized HDDs
In addition to offering High-Bandwidth drives for performance-demanding applications, Western Digital is also working on Power-Optimized HDDs that reduce power consumption by 20% for ‘active cold’ storage tier.
Western Digital positions Power-Optimized HDDs for ‘active cold’ storage tier for AI workloads that generate massive volumes of data — such as datasets, checkpoints, and logs — which must remain quickly accessible (which rules out tape), but cannot be stored on traditional high-capacity HDDs or SSDs due to cost concerns.
The company says that these power-optimized 3.5-inch HDDs use a ‘minimal random IO’ for 20% less power than conventional drives, which reduces ownership costs and makes ‘active cold’ storage cheaper to run. WD expects the first power-optimized HDDs to enter customer qualification in 2027.
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Competing with QLC-based SSDs
Although High-Bandwidth and Power Optimized HDDs serve completely different purposes, they are paradoxically designed to rival the wide product category — data center-grade 3D QLC NAND-based SSDs. Such drives can offer storage density and performance that cannot be achieved by modern HDDs. However, by tailoring features and performance of hard disk drives for particular applications, Western Digital believes it can offer better value than QLC NAND-based SSDs.
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Anton Shilov is a contributing writer at Tom’s Hardware. Over the past couple of decades, he has covered everything from CPUs and GPUs to supercomputers and from modern process technologies and latest fab tools to high-tech industry trends.