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OSFP

Octal Small Form Factor Pluggable

An OSFP (Octal Small Form-factor Pluggable) transceiver is a high-speed, hot-pluggable optical module designed for data center and networking applications. It integrates multiple optical interfaces into a compact form factor, typically offering eight lanes of high-speed transmission. OSFP transceivers support various protocols and data rates, including Ethernet, InfiniBand, and Fibre Channel, with speeds reaching up to 800 Gbps. They feature advanced thermal management and power efficiency capabilities, enabling reliable performance in dense and demanding environments. OSFP transceivers facilitate flexible and scalable network deployments, crucial for modern data centers and telecommunications infrastructures.

OSFP Media Types

400GBase-SR8
400GBase-SR4
400GBase-DR4
400GBase-DR4+
400GBase-FR2
400GBase-LR2
400GBase-FRL
400GBase-FRC
400GBase-FR4
400GBase-LR4

400GBase-SR8

The QSFP-DD SR8 is a short-range transceiver for use over parallel multimode fiber.  Utilizing 8 optical pairs of 850nm, each optical pair operates at 50Gb/s PAM4, resulting in a total of 16 fibers (8x Tx and 8x Rx).  This transceiver can be used to connect to single 400G, 2x 200G, 4x 100G, or 8x 50G applications.

Data Rate Wavelength Max Distance Connector Modulation
400Gbps
850nm
100m
MTP/MPO-16 MMF APC
8x 50G PAM4

Select Breakout Options Below

QSFP-DD SR8

MTP/MPO-16 400G Link

QSFP-DD SR8

Direct Connection between QSFP-DD SR8 Transceivers for 400G Connectivity

QSFP-DD SR8

MTP/MPO-16 400G to 2x 200G MTP-12 Breakout

QSFP56 SR4

The QSFP-DD SR8 Transceiver Supports 2x 200G-SR4 Breakout Capability

QSFP-DD SR8

MTP/MPO-16 200G to 2x 100G MTP-12 Breakout

QSFP28 SR4

The QSFP-DD SR8 Transceiver Supports 2x 100G-SR4 Breakout Capability

QSFP-DD SR8

MTP/MPO-16 400G to 8x 50G LC Duplex Breakout

50G SFP56

The QSFP-DD SR8 Transceiver Supports up to 8x 50G-SR Breakout Capability

QSFP-DD SR8

MTP/MPO-16 200G to 8x 25G LC Duplex Breakout

25G SFP28

The QSFP-DD SR8 Transceiver Supports up to 8x 25G-SR Breakout Capability

400GBase-SR4.2

The QSFP-DD SR4.2 is a short-range transceiver for use over parallel multimode fiber.  Utilizing 4 optical pairs of 855nm/908nm, each optical channel operates at 50Gb/s PAM4, resulting in a total of 8 fiber (4x Tx and 4x Rx).  This transceiver can be used to connect to single 400G or 4x 100G 1.2 applications.

Data Rate Wavelength Max Distance Connector Modulation
400Gbps
855/908nm
150m
MTP/MPO-12 MMF UPC
8x 50G PAM4

Select Breakout Options Below

400G SR BD

MTP/MPO 400G Link

400G SR BD

The GigaTech Products QSFP-DD SR BD transceiver will operate with a QSFP-DD SR BD for 400G connectivity.

400G SR BD

MPO to LC Breakout 4x 100G Link

100G SR BD

The GigaTech Products QSFP-DD SR BD transceiver will operate with 4x QSFP28 SR BD in a 4x 100G breakout mode.

400GBase-DR4

The QSFP-DD DR4 transceiver is used for transmission up to 500m over parallel singlemode fiber.  Utilizing 4 optical pairs of 1310nm, each optical channel operates at 50Gb/s PAM4, resulting in a total of 8 fiber (4x Tx and 4x Rx).  This transceiver can be used to connect to single 400G or 4x 100G applications.

Data Rate Wavelength Max Distance Connector Modulation
400Gbps
1310nm
500m
MTP/MPO-12 SMF APC
8x 50G PAM4

Select Breakout Options Below

QSFP-DD DR4

MTP/MPO-12 APC 400G Link

QSFP-DD DR4

Direct Connection between QSFP-DD DR4 Transceivers for 400G Connectivity

QSFP-DD DR4

MTP/MPO-12 400G to 4x 100G LC Duplex Breakout

100G QSFP28

The QSFP-DD DR4 can breakout to 4x 100GBASE-DR, 100G-FR, & 100G-LR QSFP28 up to 500m

400GBase-DR4

The QSFP-DD DR4 transceiver is used for transmission up to 500m over parallel singlemode fiber.  Utilizing 4 optical pairs of 1310nm, each optical channel operates at 50Gb/s PAM4, resulting in a total of 8 fiber (4x Tx and 4x Rx).  This transceiver can be used to connect to single 400G or 4x 100G applications.

Data Rate Wavelength Max Distance Connector Modulation
400Gbps
1310nm
500m
MTP/MPO-12 SMF APC
8x 50G PAM4

Select Breakout Options Below

QSFP-DD DR4

MTP/MPO-12 APC 400G Link

QSFP-DD DR4

Direct Connection between QSFP-DD DR4 Transceivers for 400G Connectivity

QSFP-DD DR4

MTP/MPO-12 400G to 4x 100G LC Duplex Breakout

100G QSFP28

The QSFP-DD DR4 can breakout to 4x 100GBASE-DR, 100G-FR, & 100G-LR QSFP28 up to 500m

4x 100GBase-FR (XDR4)

The QSFP-DD FR transceiver is used for transmission up to 2km over parallel singlemode fiber.  Utilizing 4 optical pairs of 1310nm, each optical channel operates at 50Gb/s PAM4, resulting in a total of 8 fiber (4x Tx and 4x Rx).  This transceiver can be used to connect to single 400G or 4x 100G applications.

Data Rate Wavelength Max Distance Connector Modulation
400Gbps
1310nm
2km
MTP/MPO-12 SMF APC
8x 50G PAM4

Select Breakout Options Below

QSFP-DD FR

MTP/MPO-12 SMF APC 400G Link

QSFP-DD FR

Direct Connection between QSFP-DD FR Transceivers for 400G Connectivity

QSFP-DD FR

MTP/MPO-12 SMF APC 400G to 4x 100G LC Duplex Breakout

100G QSFP28

The QSFP-DD FR can breakout to 4x 100GBASE-FR (up to 2KM), 100G-DR (up to 500M), & 100G-LR (up to 2KM) QSFP28 

4x 100GBase-LR (PLR4)

The QSFP-DD LR transceiver is used for transmission up to 10km over parallel singlemode fiber.  Utilizing 4 optical pairs of 1310nm, each optical channel operates at 50Gb/s PAM4, resulting in a total of 8 fiber (4x Tx and 4x Rx).  This transceiver can be used to connect to single 400G or 4x 100G applications.

Data Rate Wavelength Max Distance Connector Modulation
400Gbps
1310nm
10km
MTP/MPO-12 SMF APC
8x 50G PAM4

Select Breakout Options Below

QSFP-DD LR

MTP/MPO-12 SMF APC 400G Link

QSFP-DD LR

Direct Connection between QSFP-DD LR Transceivers for 400G Connectivity

QSFP-DD LR

MTP/MPO-12 SMF APC 400G to 4x 100G LC Duplex Breakout

100G QSFP28

The QSFP-DD LR can breakout to 4x 100G-LR (up to 10KM), 100G-DR (up to 500M), & 100G-FR (up to 2KM) QSFP28

400GBase-FR4

The QSFP-DD FR4 transceiver is used for transmission up to 2km over duplex singlemode fiber.  Utilizing 4 CWDM pairs, each optical channel operates at 50Gb/s PAM4, resulting in a total of 2 fiber (1x Tx and 1x Rx).  This transceiver can only be used to connect to a single 400G application.

Data Rate Wavelength Max Distance Connector Modulation
400Gbps
1271 / 1291 / 1311 / 1311nm
2km
LC Duplex
8x 50G PAM4

QSFP-DD FR4

LC Duplex 400G Link

QSFP-DD FR4

Direct Connection between QSFP-DD FR4 Transceivers for 400G Connectivity

400GBase-FR4

The QSFP-DD FR4 transceiver is used for transmission up to 2km over duplex singlemode fiber.  Utilizing 4 CWDM pairs, each optical channel operates at 50Gb/s PAM4, resulting in a total of 2 fiber (1x Tx and 1x Rx).  This transceiver can only be used to connect to a single 400G application.

Data Rate Wavelength Max Distance Connector Modulation
400Gbps
1271 / 1291 / 1311 / 1311nm
2km
LC Duplex
8x 50G PAM4

QSFP-DD FR4

LC Duplex 400G Link

QSFP-DD FR4

Direct Connection between QSFP-DD FR4 Transceivers for 400G Connectivity

400GBase-FR4

The QSFP-DD FR4 transceiver is used for transmission up to 2km over duplex singlemode fiber.  Utilizing 4 CWDM pairs, each optical channel operates at 50Gb/s PAM4, resulting in a total of 2 fiber (1x Tx and 1x Rx).  This transceiver can only be used to connect to a single 400G application.

Data Rate Wavelength Max Distance Connector Modulation
400Gbps
1271 / 1291 / 1311 / 1311nm
2km
LC Duplex
8x 50G PAM4

QSFP-DD FR4

LC Duplex 400G Link

QSFP-DD FR4

Direct Connection between QSFP-DD FR4 Transceivers for 400G Connectivity

400GBase-LR4

The QSFP-DD LR4 transceiver is used for transmission up to 10km over duplex singlemode fiber.  Utilizing 4 CWDM pairs, each optical channel operates at 50Gb/s PAM4, resulting in a total of 2 fiber (1x Tx and 1x Rx).  This transceiver can only be used to connect to a single 400G application.

Data Rate Wavelength Max Distance Connector Modulation
400Gbps
1271 / 1291 / 1311 / 1311nm
10km
LC Duplex
8x 50G PAM4

QSFP-DD LR4

LC Duplex 400G Link

QSFP-DD LR4

Direct Connection between QSFP-DD LR4 Transceivers for 400G Connectivity

800GBase-SR8

800GBase-SR8

The OSFP SR8 is a short-range transceiver for use over parallel multimode fiber. Utilizing 8 optical pairs of 850nm, each optical pair operates at 50Gb/s PAM4, resulting in a total of 16 fibers (8x Tx and 8x Rx).  This transceiver can be used to connect to single 800G or 2x 400G applications.

Data Rate Wavelength Max Distance Connector Modulation
800Gbps
850nm
50m
2x MTP/MPO-12 MMF APC
8x106.25G PAM4

Select Breakout Options Below

OSFP SR8

2x MTP/MPO-12 800G Link

OSFP SR8

Direct Connection between OSFP SR8 Transceivers for 800G Connectivity

800G OSFP SR8

2x MTP/MPO-12 APC MMF

2x 400G OSFP SR8

The 800G OSFP SR8 Transceiver Supports 2x 400G-SR8 Breakout Capability

Compatible Manufacturers

GigaTech Products has been a leading manufacturer of compatible transceivers and cables for over a decade, bringing customers affordable alternatives to Cisco, Juniper, Brocade, Dell, and HP original items. With the ability to custom code transceivers and direct attach network cables, GigaTech can provide compatible alternatives for most lesser-known brands, while ensuring 100% compatibility

Optical Transceiver Standards & Compliance​

Never Sourced. Never Recycled.

All components in GigaTech Product optics are manufactured under the same roof and represent the gold standard for reliability and consistency in performance. This vertical manufacture chain allows GigaTech to avoid unnecessary variances in transceiver casing or laser quality often found with online resellers who source their components from an ever changing vendor list. The transceiver is guaranteed to be built from A-Stock never used components overseen by GigaTech Products,

Rigorous Testing & Standards Compliance

The quality and standards of our hardware is one the base foundations of GigaTech Products. All of our components comply with MSA (Multi-Source Agreement) output standards and, in many cases, excel beyond those certification standards. Every transceiver we produce is tested on active network devices to ensure they comply with OEM equipment and are verified to be plug-and-play and do not require work arounds.