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NVIDIA Mellanox LinkX Ethernet Optical Transceivers

Discover the next generation of transceivers for GPU-accelerated computing.

NVIDIA Mellanox LinkX Ethernet Optical Transceivers

Discover the next generation of transceivers for GPU-accelerated computing.

NVIDIA^® Mellanox^® LinkX^® Optics Ethernet transceivers are used to create high-speed, 100G–400G links supporting every configuration, reach, and speed in networks requiring detachable optical connectors. LinkX transceivers are designed to create high-speed 25G–400G optical links in Ethernet switching networks, Ethernet storage fabrics (ESF) linking hard-disk-drive (HDD) and flash memory subsystems, and NVIDIA GPU-based, end-to-end AI systems. All transceivers are extensively tested in live GPU and switching systems and used in NVIDIA-Certified Systems™.

Long Reaches and Many Configurations

Transceivers are available in one, four, and eight channels in non-return-to-zero (NRZ) and 50G-4-level pulse-amplitude-modulation (PAM4) for 850nm multi-mode and 1310nm single-mode in small form-factor pluggable (SFP), quad small form-factor pluggable (QSFP), and QSFP double density (QFSP-DD) form factors.

100GbE DR1 500m transceiver has 1x 100G-PAM4 LC 1310nm optics and includes an internal gearbox to convert to 4x 25G NRZ electrical output. It’s often used with 400G DR4 transceivers with splitter fibers to link new 400G-PAM4 systems to legacy 100G (4x 25G-NRZ)-based systems.

With 100 percent factory testing in end-to-end configurations, all LinkX transceivers offer extremely low BER compared to industry standards and competitors. There are a wide variety of transceiver options available for GPUs, CPUs and storage networks in every data center configuration.

NVIDIA Mellanox LinkX Ethernet Optical Transceivers

Highlights

PORT SPEEDS

10G-400Gb/s

FORM FACTORS

SFP, QSFP, QSFP-DD

OPTICAL CONNECTORS*

LC, MPO

MODULATION TYPES

10/25G NRZ, 50G-PAM4

* MPO: multi-fiber push-on

Connectorized Transceivers for Long-Reach Links

Transceivers are widely used in data centers to connect NVIDIA GPU-based AI systems to top-of-rack (TOR) switches, to leaf-spine and spine-super spine switches in link budgets requiring large optical power or long fiber reaches. The 500m PSM4/DR4, 2km CWDM4/FR4, and 10km LR4 are used to traverse complex networks over long single-mode fiber reaches. Short-reach runs up to 100m along system rows and the multi-mode SR/SR4/SR8 versions are the most popular, low-cost options.

Key Features

Extensively tested in live NVIDIA switching and GPU-based systems
Low-cost, low- latency, long reaches
Extensive 25/50/100/200/400G product offering for every need
Tested and certified in NVIDIA GPU, DGX™, EGX™, and DPU systems

Benefits

Many parts designed and manufactured by LinkX Optics
100 percent factory tested in live switching and GPU-based systems
Designed to beyond IEEE industry BER standards for reliable operation under harsh operating conditions

High-Speed Interconnects

The latest rapid growth in data center traffic and cloud computing has resulted in tremendous increases in machine-to-machine traffic due to rapid adoption of server virtualization, software-defined networks (SDNs), and in-cloud computing. Now add the massive bandwidth requirements for networking terabytes of data for training Artificial Intelligence (AI) machine learning (ML) GPU-based systems.

This is driving massive demands for high-bandwidth and low-latency networks. High-speed DAC and AOC cables and optical transceiver interconnects are playing a critical role in these modern data center technologies. Learn more with this 38-page e-book packed with details on Ethernet DACs, AOCs, and optical transceivers.

DOWNLOAD E-BOOK ›

Ethernet Optical Transceivers

	Configuration	Form Factor	Application	Connector	Max Reach	Wavelength	Part Number
400Gb/s 8-channels	400GbE LR4	QSFP-DD	8x 50G-PAM4 electrical 4x100G-PAM4 optical Multiplexed	2-fiber duplex LC	10km	1310nm single-mode	MMS1V90-WR
	400GbE FR4	QSFP-DD	8x 50G-PAM4 electrical 4x 100G-PAM4 optical Multiplexed	2-fiber duplex LC	2km	1310nm single-mode	MMS1V50-WM
	400GbE DR4	QSFP-DD	8x 50G-PAM4 electrical 4x 100G-PAM4 optical Parallel	8-fiber, MPO-12/APC	500m	1310nm single-mode	MMS1V00-WM
	400GbE SR8	QSFP-DD	8x 50G-PAM4 electrical 8x 50G-PAM4 optical	16-fiber, MPO-16/APC	100m	850nm multi-mode	MMA1U00-WS
200Gb/s 4-channels	200GbE FR4	QSFP56	8x 50G-PAM4 electrical 8x 50G-PAM4 optical Multiplexed	2-fiber duplex LC	2km	1310nm single-mode	MMS1W50-HM
200Gb/s 4-channels	200GbE SR4	QSFP56	4x 50G-PAM4 electrical 4x 50G-PAM4 optical Parallel	8-fiber, MPO-12	100m	850nm multi-mode	MMA1T00-VS
100Gb/s 4-channels	100GbE DR1	QSFP28	4x 25G-NRZ electrical 1x 100G-PAM4 optical	2-fiber duplex LC	500m	1310nm single-mode	MMS1V70-CM
	100GbE LR4	QSFP28	4x 25G-NRZ Multiplexed	2-fiber duplex LC	10km	1310nm single-mode	MMA1L10-CR
	100GbE CWDM4	QSFP28	4x 25G-NRZ Multiplexed	2-fiber duplex LC	2km	1310nm single-mode	MMA1L30-CM
	100GbE PMS4	QSFP28	4x 25G-NRZ Paralle	8-fiber, MPO-12/APC	500m	1310nm single-mode	MMS1C10-CM
	100GbE SR4	QSFP28	4x 25G-NRZ Paralle	8-fiber, MPO-12	100m	850nm multi-mode	MMA1B00-C100D
40Gb/s 4-channels	40GbE LR4	QSFP+	4x 10G-NRZ Multiplexed	2-fiber duplex LC	10km	1310nm single-mode	MC2210511-LR4
	40GbE SR4e	QSFP+	4x 10G-NRZ Parallel	8-fiber, MPO-12	300m	850nm multi-mode	MC2210411-SR4E
	40GbE SR4	QSFP+	4x 10G-NRZ Parallel	8-fiber, MPO-12	150m	850nm multi-mode	MMA1B00-B150D
	40GbE SR4L	QSFP+	4x 10G-NRZ Parallel	8-fiber, MPO-12	30m	850nm multi-mode	MC2210411-SR4L
25Gb/s 1-channel	25GbE LR	SFP28	1x 25G-NRZ Serial	2-fiber duplex LC	10km	1310nm single-mode	MMA2L20-AR
25Gb/s 1-channel	25GbE SR	SFP28	1x 25G-NRZ Serial	2-fiber duplex LC	100m	850nm multi-mode	MMA2P00-AS
10Gb/s	10GbE LR	SFP+	1x 10G-NRZ Serial	2-fiber duplex LC	10km	1310nm single-mode	MFM1T02A-LR
10Gb/s	10GbE SR	SFP+	1x 10G-NRZ Serial	2-fiber duplex LC	400m	850nm multi-mode	MFM1T02A-SR
1Gb/s	10GbE SR	SFP+	1x 1G-NRZ Serial	2-fiber duplex LC	500m	850nm multi-mode	MC3208011-SX
1Gb/s	1GBASE-T	SFP+	Base-T	RJ-45	100m	Copper	MC3208411-T
* Check product briefs for detailed product codes and specifications. ** An 850nm multi-mode transceiver’s typical reach is 70m with OM3 and 100m with OM4 fiber.