Every Bytestock refurbished product completes a rigorous refurbishment process that includes full testing.
Our refurbished hardware offers extensive savings, typically anywhere from 30%-70% off the MSRP.
Every product from Bytestock is rigorously tested and verified before being made available to customers.
But,
for when faults do occur, we offer an industry-leading 5-year warranty on all non-consumable systems and
components.
We offer free shipping across the UK, with most orders delivered next-day, and
achieve worldwide two-working day delivery across 90% of international orders.
And for the most time-sensitive challenges, we offer same-day delivery options in the UK, dependent on order
time and availability.
We all change our minds from time to time. If you’re a non-business customer and you’re no longer sure about
your order you can return it to us within 14 days of delivery, no quibbles!
If you require any additional options for the Dell NVIDIA ConnectX-6 Single Port 100GB QSFP56 Low Profile Network Adapter - 7TKND
The Dell Mellanox ConnectX-6 Single Port 100GB QSFP56 Low Profile Network Adapter, denoted by the part number 7TKND, is a network adapter that offers exceptional networking performance in constrained spatial settings. The adapter under consideration is characterised by its discreet design and is equipped with a solitary Ethernet port capable of transmitting data at a rate of 100 gigabits per second. This port is fitted with a QSFP56 connector, which facilitates high-speed data transfer, making it well-suited for applications and workloads that involve handling large volumes of data. This adapter is enhanced by the ConnectX-6 chipset developed by Mellanox. It incorporates advanced functionalities including RDMA (Remote Direct Memory Access), congestion control, and hardware offloading. These features collectively enhance system performance and minimise CPU usage. The adapter demonstrates a high level of compatibility with compact server systems, virtualized environments, and data centres that prioritise efficient space utilisation. The capabilities of this technology render it appropriate for use cases that necessitate rapid data transfer and minimal delay in network communication, such as high-performance computing clusters and other challenging scenarios.