TL;DR

A DAC (Direct Attach Copper) cable is a fixed-length copper cable with modules at each end, used for short-range, high-speed device connections within racks. It is favored for cost and reliability over optics in certain scenarios, but has limitations at higher speeds and longer distances.

In 2021, DAC (Direct Attach Copper) cables are widely used in data centers for high-speed, short-range device connections, offering a cost-effective and reliable alternative to optical solutions.

DAC cables are fixed-length copper cables with modules at each end, typically featuring connectors such as QSFP+ or QSFP28. They enable direct electrical communication between devices like switches, NICs, and servers within a rack, often up to 5 meters in length. These cables are distinguished by their simplicity, low power consumption, and affordability compared to optical transceivers.

There are two main types: passive DACs, which use no power and are less expensive but limited in distance; and active DACs, which require power and can extend reach slightly further. As speeds increase beyond 100GbE, DACs tend to become thicker and less flexible, with maximum reliable lengths decreasing to around 5 meters or less. Shielding increases with speed to maintain signal integrity, resulting in bulkier cables.

Breakout DAC cables, which split a high-density port into multiple lower-speed connections, are common in expanding port density. However, support for breakout configurations varies across devices, with most modern switches and NICs supporting them, but some exceptions remain.

Why It Matters

Understanding DAC cables is crucial for network engineers and data center operators, as they influence hardware choices, deployment costs, and network reliability. While cheaper and simpler than optical solutions, DACs are limited in distance and flexibility at higher speeds, impacting scalability and future-proofing strategies.

10Gtek 40G QSFP+ DAC Cable - 40GBASE-CR4 Passive Direct Attach Copper Twinax QSFP Cable for Cisco QSFP-H40G-CU1.5M, Meraki MA-CBL-40G-1.5M, Supermicro, Mikrotik, Open Switch Devices, 1.5-Meter(5ft)

10Gtek 40G QSFP+ DAC Cable – 40GBASE-CR4 Passive Direct Attach Copper Twinax QSFP Cable for Cisco QSFP-H40G-CU1.5M, Meraki MA-CBL-40G-1.5M, Supermicro, Mikrotik, Open Switch Devices, 1.5-Meter(5ft)

Compatible for Cisco QSFP-H40G-CU1.5M, Meraki, Supermicro, Mikrotik, Open Switch Devices

As an affiliate, we earn on qualifying purchases.

As an affiliate, we earn on qualifying purchases.

Background

DAC cables have been a staple in data center networking for years, especially at speeds up to 40GbE. With the advent of 100GbE and beyond, their physical limitations and the need for more flexible, longer-range solutions have increased. The industry is gradually shifting toward optical transceivers for inter-rack connections, but DACs remain prevalent within racks for their cost-effectiveness and ease of deployment.

“DAC cables offer a reliable, low-cost solution for short-range high-speed connections within racks, but their physical limitations become apparent at higher speeds.”

— Industry expert

“Support for breakout DACs is widespread, but compatibility varies, so it’s essential to verify device support before deployment.”

— Network hardware manufacturer

DiscTech 400GBe to 4x100GBe QSFP28 Active DAC Breakout Cable, 5m - Compatible with Dell EMC 470-AEDL C0TP5 RH2KV ACC-Q56DD-4QSFP28-100G-5M

DiscTech 400GBe to 4x100GBe QSFP28 Active DAC Breakout Cable, 5m – Compatible with Dell EMC 470-AEDL C0TP5 RH2KV ACC-Q56DD-4QSFP28-100G-5M

COMPATIBILITY: Specifically designed for Dell EMC platforms running OS9.10 or OS6.3, with part number 470-AEDL C0TP5 RH2KV for…

As an affiliate, we earn on qualifying purchases.

As an affiliate, we earn on qualifying purchases.

What Remains Unclear

It remains unclear how rapidly the industry will transition from DACs to optical solutions for intra- and inter-rack connectivity at higher speeds, or how new DAC designs might evolve to overcome current limitations.

40G QSFP+ to 4xSFP+ Breakout DAC for Cisco QSFP-4SFP10G-CU5M - 40GBASE-CR4 Passive Direct Attach Copper Twinax QSFP to SFP Cable for Cisco Devices, 5-Meter(16.5ft)

40G QSFP+ to 4xSFP+ Breakout DAC for Cisco QSFP-4SFP10G-CU5M – 40GBASE-CR4 Passive Direct Attach Copper Twinax QSFP to SFP Cable for Cisco Devices, 5-Meter(16.5ft)

40GbE QSFP+ to 4xSFP+ DAC Direct Attach Copper Twinax Breakout Cable, Passive, 5-Meter(16.5ft), 26AWG

As an affiliate, we earn on qualifying purchases.

As an affiliate, we earn on qualifying purchases.

What’s Next

Next steps include monitoring industry adoption of higher-speed DACs, advancements in cable shielding and flexibility, and increased support for breakout configurations across devices. Additionally, the ongoing shift toward optical interconnects for longer distances is expected to accelerate.

Cable Matters 10Gbps Snagless Short Cat 6 Ethernet Cable - 2ft, Cat 6 Cable, Cat6 Cord, Ethernet Cord, Black

Cable Matters 10Gbps Snagless Short Cat 6 Ethernet Cable – 2ft, Cat 6 Cable, Cat6 Cord, Ethernet Cord, Black

High-Performance Connectivity: This Cat 6 ethernet cable is designed for superior performance, with a 24 AWG copper wire…

As an affiliate, we earn on qualifying purchases.

As an affiliate, we earn on qualifying purchases.

Key Questions

What is the main advantage of DAC cables?

DAC cables are cost-effective, simple to deploy, and reliable for short-range, high-speed connections within data racks.

How long can DAC cables reliably operate at 40GbE?

Typically up to 5 meters, with some active versions reaching slightly further, but limitations increase at higher speeds like 100GbE.

Are DAC cables suitable for connecting devices across different racks?

No, DACs are generally limited to intra-rack use due to their physical and signal integrity constraints. For longer distances, optical solutions are preferred.

What are breakout DAC cables?

Breakout DACs split a high-density port into multiple lower-speed connections, such as one QSFP+ port into four SFP+ ports, increasing port density but with varying device support.

Source: Hacker News

You May Also Like

School Printer Producers: The Startling Innovations on the Horizon

Keen to discover how school printer producers are revolutionizing education with groundbreaking 3D technologies? Uncover the thrilling changes just around the corner.

Need Help Choosing the Right Paper for Your Pr

Just how crucial is the right paper choice for your PR materials? Discover the key factors that can elevate your message and impact.

Single‑Wall Vs Double‑Wall Corrugated Boards

The key differences between single-wall and double-wall corrugated boards can significantly impact your packaging choice—discover which one suits your needs best.

School Printer Suppliers: Is Your Classroom Ready for the Future?

Classroom innovation starts with the right printer suppliers—discover how to elevate your teaching experience and prepare students for tomorrow’s challenges.