SAMSUNG 980 PRO PCIe 4.0 1TB M.2 NVME 7000 MB/s
Review: 5 - "A masterpiece of literature" by , written on May 4, 20020
Great
  • electro-track-order-icon
  • توصيل
    جميع محافظات العراق
  • electro-thumb
  • 99% من الزبائن
    سعيدين بخدماتنا
  • electro-return-icon
  • 30 يوم
    ضمان الاستبدال
  • electro-payment
  • نظام الدفع
    عند الاستلام
  • electro-brands-icon
  • افضل العلامات التجارية
    نتعامل بالجديد فقط

SAMSUNG 980 PRO PCIe 4.0 1TB M.2 NVME 7000 MB/s

متاح:في المخزن
$205.00
  • ext-Level SSD Performance: Unleash the power of Samsung 980 PRO PCIe 4.0 NVMe SSD for next-level computing
  • Maximum Speed: 980 PRO is raising the bar for NVMe SSDs, delivering read speeds up to 7,000 MB/s
  • A Winning Combination: Designed for hardcore gamers and tech-savvy users, the 980 PRO offers high-performance bandwidth for heavy-duty applications in gaming, graphics, data analytics, and more
  • Efficient M.2 SSD: The 980 PRO comes in a compact M.2 2280 form factor, thus optimizing power efficiency, making it ideal for building high-performance computing systems
  • Reliable Thermal Control: To ensure stable performance, the 980 PRO uses nickel coating to help manage the controller's heat level and a heat spreader label to deliver effective thermal control of the NAND chip
  • ext-Level SSD Performance: Unleash the power of Samsung 980 PRO PCIe 4.0 NVMe SSD for next-level computing
  • Maximum Speed: 980 PRO is raising the bar for NVMe SSDs, delivering read speeds up to 7,000 MB/s
  • A Winning Combination: Designed for hardcore gamers and tech-savvy users, the 980 PRO offers high-performance bandwidth for heavy-duty applications in gaming, graphics, data analytics, and more
  • Efficient M.2 SSD: The 980 PRO comes in a compact M.2 2280 form factor, thus optimizing power efficiency, making it ideal for building high-performance computing systems
  • Reliable Thermal Control: To ensure stable performance, the 980 PRO uses nickel coating to help manage the controller's heat level and a heat spreader label to deliver effective thermal control of the NAND chip