Upgrade Your Mining Setup with 010S PCIe Risers
Enhance your mining rig with the upgraded 010S PCIe risers, designed to extend your motherboard PCIe X1 slot to PCIe X16. With gold-plated contacts, enjoy flawless connectivity and long-lasting performance perfect for Bitcoin, Ethereum, and other crypto mining operations.
Stable and Secure Power Supply
Experience greater stability with the 010S risers, featuring 8 solid capacitors that ensure a secure and reliable power supply to your graphics card. The innovative 4PIN+6PIN interface design, paired with a SATA 15pin male to 4pin/6pin power cable, reduces the load on your motherboard when connecting multiple GPUs.
Thoughtful and Versatile Design
The 010S PCIe risers come equipped with a multi-layer shielded wire allowing for a seamless connection up to 3 meters without signal loss, and 6 marquee LED lights to indicate working status. Suitable for all PCI-E slots (1x, 4x, 8x, and 16x) and compatible with WINDOWS, LINUX, and MAC systems, this kit has you covered. Plus, enjoy peace of mind with a 30-day warranty.
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Good Initial Performance
I had zero failures out of the box. -
LED Indicators
The risers have LED indicators to show they are getting power. -
Aesthetic Appeal
The risers have lots of pretty lights to indicate activity and power. -
Multiple Connector Types
Comes with various connectors, including 6 pin on the back and side and molex. -
Better Quality
Appears to be of better quality than cheaper variants. -
Secure GPU Clip
The butterfly clip to secure the GPU is better than risers with sliders.
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Poor Adhesive
The adhesive on the bottom comes off on the first day of operation. -
Lower Durability
These risers seem to stop being useful after a few cycles. -
Stability Issues
There are reports of risers being sensitive, causing unstable performance. -
Adhesive Quality
Very poor adhesive backing for long periods of time. -
Intermittent Failures
Reports of risers appearing dead after short use. -
Sensitive to Electron Flow
Seems to break electron flow easily, leading to functionality loss.
