ADATA, a leading manufacturer of high-performance DRAM modules and NAND Flash storage application products and accessories, today unveiled the launch of two new PCIe Gen3x4 M.2 2280 solid state drives (SSD), the ADATA FALCON and SWORDFISH. Both SSDs are designed to help creative minds boost their productivity. They are built with 3D NAND Flash memory and support the PCIe Gen3x4 interface for excellent performance and reliability.
The SWORDFISH features sustained read/write speeds of up to 1800/1200MB1 per second for smooth productivity as well as SLC caching, host memory buffer, and random 4K read/write of 180/180K1 IOPS. And, the FALCON delivers read/write speed of up to 3100/1500MB per second for uninterrupted productivity and creativity. With 3D NAND Flash, the FALCON features higher efficiency and increased reliability compared to 2D NAND SSDs. It comes in diverse capacities, ranging from 256GB to 2TB, and features data protection and correction technologies to expand the lifespan of SSD.
“Our Premier Falcon and Swordfish SSDs deliver all the simplicity and reliability enthusiasts demands, in an ultra-compact, high-performance package refined with ADATA quality assurance to deliver leading performance, data reliability, and endurance.” said, Sachin Sharma, Country Manager – India at ADATA Technology (India) Pvt. Ltd. “Rapid growth in technology and intensive usage patterns of data stretch the limits of these professionals. We at ADATA are committed to ease the work and life of them”.
ADATA FALCON
ADATA FALCON comes in diverse capacities, ranging from 256GB to 2TB and features data protection and correction technologies to expand the lifespan of SSD. The FALCON sports intelligent SLC caching, host memory buffer, and random read/write of 180/180K IOPS to give creators seamless performance for creating. The FALCON also comes with a stylish aluminum alloy heatsink for heat dissipation. The FALCON sports an aluminum alloy heatsink with etched grooves that not only look good but also keeps things cool for stable operations during intensive tasks.