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GIGABYTE Gen4 SSD 1TB 5000 MB/s NVMe AORUS 2280 PCI-Express 4.0 x4 3D TLC Dual Side Copper GP-ASM2NE6100TTTD

$208.950 IVA incl
$218.900 IVA incl
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$224.870 IVA incl
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GIGABYTE AORUS SSD in Front of Its Product Box
  • Form Factor: M.2 2280
  • Interface: PCI-Express 4.0×4, NVMe 1.3
  • Sequential Read Speed : Up to 5,000MB/s
  • Sequential Write speed : Up to 4,400MB/s
  • Wear Leveling, Over-Provision Technologies
  • TRIM & S.M.A.R.T Supported
  • Full-Body Copper Heat Spreader
  • Warranty: Limited 5 Years
GIGABYTE AORUS SSD Facing Up to the Left around neon light coming from an intertwined scifi graphic. There is also text that reads: DUAL SIDED COPPER GEN4 SSD 16% COOLER

World-First PCIe 4.0 x4 Controller

This world-first PCIe 4.0 x4 Phison PS5016-E16 controller is made by 28nm manufacturing technology. The advanced fabrication process ensures PS5016-E16 has enough compute power for ECC processing when adopting the latest 3D TLC NAND flash. PS5016-E16 also features eight NAND channels with 32 CE targets, DDR4 DRAM caching, and a PCIe 4.0×4 interface. As for features, the chip supports the NVMe 1.3 protocol, LDPC error correction and Wear Leveling, Over-Provision technologies to improve reliability and durability of SSDs.

GIGABYTE AORUS SSD Angled Up to the Left, with half of its surface transparent to show the chipset inside
  • PCIe 4.0 x4, NVMe 1.3 Interface
  • DDR4 DRAM Cache
  • 8CH with 32 CEs
  • Phison 4th Gen LDPC & RAID ECC
  • Support Pyrite
  • Heat Spreader for Controller

NAND Flash Selected for High Quality and Performance

TOSHIBA BiCS4 96 Layers 3D TLC (800MT/s)

Toshiba BiCS4 NAND Flash optimizes circuitry and architecture by increasing to 96 layers for higher storage space per unit area. 800MT/s throughput on the AORUS NVMe Gen 4 SSD far exceeds that of PCIe 3.0×4 devices for superior storage performance.

GIGABYTE AORUS SSD Transfer Rate Performance Graph showing the AORUS SSD has 800 MT/s compared to the 400~533 MT/s rate of general SSDs

Xtreme Storage Performance

With the new PCIe 4.0 controller, AORUS NVMe Gen 4 SSD delivers blazing speeds: up to 5,000MB/s for sequential read, and up to 4,400MB/s sequential write. Sequential Read performance of PCIe 4.0 SSDs is up to 40% faster than PCIe 3.0 SSDs. Get ready to enter the next generation of computing with faster and smoother, gaming, streaming and graphics-intensive rendering.

Sequential Read Speed

GIGABYTE AORUS SSD Performance Graph showing the AORUS SSD hitting 5,000MB/s read speed compared to normal PCIe 3.0 SSDs doing 3,500MB/s. There is text for the AORUS NVME Gen4 SSD that reads: Up to 40% improved

Sequential Write Speed

GIGABYTE AORUS SSD Performance Graph that shows the AORUS SSD hitting 4,400MB/s write speeds compared to normal PCIe 3.0 SSDs that hit 3,300MB/s. There is text for the AORUS NVME Gen4 SSD that reads: Up to 30% improved

Full-Body Copper Thermal Solution for Outstanding PCIe 4.0 SSD Performance

The full-body copper heatsink takes into account the heat transfer from key components on both the front and back of the device, the controller and NAND Flash. Full copper heatsinks have 69% higher heat-transfer capacity compared to aluminum heatsinks giving AORUS NVMe Gen4 SSD the best heat dissipation for read/write performance.

Thermal Conductivity

GIGABYTE AORUS SSD Thermal Conductivity Performance chart showing Copper (CU) hitting 401W/mK with text that reads: Up to 69% Better, compared to Aluminum (AL) that hits 237W/mK
GIGABYTE AORUS SSD Lying Down, Facing Up to the Left with Text and Graphics that Read and point the pieces floating up, behind one another: Efficiency Copper Heat Spreader, M.2 SSD, Copper Base Heatsink and Two High Conductivity Thermal Pads

Efficient Copper Heat-Spreader Design

Compared with a plated M.2 heat spreader, the new efficient copper heat spreaders with 27 fins add more surface area which improve thermal transfer from heating sources to obtain thermal balance sooner. Moreover, the optimized fin-array design does great heat exchange with any direction of airflow. The unique design makes sure key components of PCIe 4.0 SSD to keep suitable working temperatures under ultra-high transfer rates.

Closeup graphic of the GIGABYTE AORUS SSD's internal cooling system

Why is it important to keep SSDs at lower temperatures?

  • Higher working temperature may cause data loss. The degradation factor of data loss could be a hundred times higher.
  • With full-body copper heat spreaders, the AORUS NVMe Gen 4 SSD can operate at lower working temperatures to improve data storage reliability. Furthermore, SSDs can deliver extreme performance for longer periods.

Performance chart showing full body copper heat spreaders have 16% improved compared to plated m.2 heat spreaders*The test result is based on internal testing for reference onl, actual performance may vary under different circumstances.

SSD Tool Box

The newly updated SSD Tool Box is a software that gives users an overview of the SSD Status and various aspects such as model name, FW version, health condition and sensor temperature. Moreover, users can clear all the data with the Secure Erase function. You can download the SSD Tool Box from the link.

SSD Tool Box Software Windows on DisplaySSD tool box function may vary by model.

Quality Guaranteed

A room with shelves of computer devices and a desk with a multi-computer setup


Transparent graphic of the GIGABYTE AORUS SSD with text and graphics that point out: Toshiba 96 Layers 3D TLC NAND Flash, Philson PS5016-E16 Controller, External DDR4 Cache and PCIe 4.0 x4


Forward facing and side profile of the GIGABYTE AORUS SSD with text and graphics indicating that the device 80.5mm in width, 23.5mm in height and 11.4mm in depth


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