100G DWDM QSFP28_The Enabler of 100G End-toEnd Long Distance Connectivity
A QSFP28 is a combination of transmitter and receiver for the transfer of optical signals. The QSFP28 uses an electronic to optical converter to translate the signals within the QSFP28 . For the transmission, the QSFP28 uses LEDs or lasers. For more details you can visit at https://www.cbo-it.de/shop/QSFP28-Transceivers
A QSFP28 is a combination of transmitter and receiver for the transfer of optical signals. The QSFP28 uses an electronic to optical converter to translate the signals within the QSFP28 . For the transmission, the QSFP28 uses LEDs or lasers.
For more details you can visit at https://www.cbo-it.de/shop/QSFP28-Transceivers
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100G DWDM QSFP28: The Enabler of 100G Endto-End
Long Distance Connectivity!
Standard optical transmission transceivers including CFP and QSFP28 transceiver modules are
quite efficient for 100G transmission within data centers. However, it becomes an issue as they
cannot be used for transporting data over long distances like in cases where traffic is needed to
be carried between multiple data centers, geographically dispersed and situated far from one
another (say over 60 kilometers). Here comes the role of 100G DWDM QSFP28 transceivers.
DWDM technology is not new in the industry as DWDM SFP transceivers are widely used for
the expansion of 10G network capacity. Regarding functionality, the 100G DWDM is quite
similar to its predecessor. Though, it is typically used in 100G networks for transmission over
longer distances.
100G DWDM QSFP28: The Broader Reach,
More Agile Solution
100G DWDM QSFP28 works on an advanced and state-of-the-art modulation technique called
PAM4. Moreover, it takes a form factor similar to QSFP transceiver modules and can directly be
used on switches with available QSFP28 ports – capitalizing on the IEEE CAUI-4 4x 25G electrical
interfaces. One of the significant benefits of DWDM QSFP28 PAM4 is its lower power consumption
which makes it into a practical solution for data center interconnect applications.
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Benefits of the PAM4 method
Before PAM4 (pulse amplitude modulation), binary NRZ modulation format is used for 100G
long-haul and 40G data transmission networks. PAM4 is a better choice as it comes with four
distinct levels for the encoding of two data bits. Thus, with this modulation format, the bandwidth
of a connection can be double. These days, the single-wavelength PAM4 modulation
technique is being used as it is considered as the most efficient and cost-effective enabler of
100G data transportation.
Customers who are willing to construct an embedded DWDM data network can employ these
transceivers in their switches directly. Therefore, it is a cost-effective and simple solution.
How-ever, PAM4 requires amplification, and you cannot go beyond the range of 5 to 6
kilometers without using dispersion compensation. Thus, a dedicated DWDM multiplexer in
combination with dispersion compensation and an amplification system is necessary to
connect data centers using PAM4.
The advent of Pluggable 100G DWDM QSFP28 Transceivers
In the past few years entire focus remained on coherent DWDM optical transceivers including
but not limited to CFP and CFP2. Back in 2016, Inphi (a leading vendor in communications
indus-try) launched the pluggable 100G DWDM QSFP28 transceivers for the very first time.
The introduction of pluggable DWDM QSFP28 transceivers was received like a strong alternative
for 100G DWDM coherent transceivers. It triggered a major shift as a significant number
of network operators started shifting to 100G DWDM QSFP28 transceivers.
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100G DWDM QSFP28 – an Ultimate Answer for the anticipated
Data Centers Interconnect Boom
The growth of e-commerce, social networking, and big data is driving the demand for bandwidth
between data centers. This factor is motivating data center operators to deploy low
pow-er, high-density and low latency DWDM links to connect their multiple data centers. In
fact, Data centers interconnect (DCI) today has become a basic necessity of businesses.
Far located data centers are connected to meet various crucial needs such as: disaster recov-ery,
cluster computing, large-scale data transfers and also for the erection of metro data center
topologies. Data-intensive applications including Artificial intelligence, server-less compute and
machine learning are inducing a rapid growth in the construction of cloud networks.
As per AGC research, in 2019 the global market for optical data center interconnect (DCI) will
hit the $4.7 billion mark. You can suggest that the QSFP28 form factor compatible 100G
DWDM modules are ready to replace 10G DWDM technology which is still being used in a
significant portion of sub 80 kilometer lines.
Large Data Centers vs. Regional Data Centers
Restraints in the building of massive data centers are enforcing cloud service providers (CSPs)
to move towards distributed regional architectures. It is because the construction of largescale
data centers is not always achievable due to:
• Power constraints
• Real estate limitations
• Legal issues
• Cost-related issues
In short, to provide applications agility and to maintain seamless content delivery
interconnect-ing geographically dispersed or regional data centers becomes a practical and
more affordable solution.
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Implementation of the 100G DWDM QSFP28 Transceiver
With its capability to deliver as much as 4Tbps of bandwidth for up to 80 kilometers spread
between data centers the 100G DWDM QSFP28 can be considered as a perfect solution. The
construction of a 100G DWDM QSFP28 based long distance interconnection setup requires:
• Optical Multiplexer/Demultiplexer
• Optical Pre-Amplifier and Post-Amplifier
• Dispersion Compensator ( for greater then 5-kilometer applications only)
In this arrangement, the Optical Multiplexer (MUX) syndicates various wavelengths of light
into a single fiber strand, and Erbium-doped fiber amplifiers aka EDFAs are employed to boost
the signal. For applications greater then 5 kilometers, a dispersion compensator is required
(as shown in Case II). Whereas no dispersion compensator is needed in scenarios where the
dis-tance remains less than 5 kilometers.
Case I: under 5 km Applications
Case II: over 5 km
Applications (up to 80km)
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General Characteristics of available 100G DWDM QSFP28
Pluggable Modules:
The 100G DWDM QSFP28 pluggable modules are widely considered as a viable solution for
Metro Data Center Interconnect (DCI) with a possibility of transmission over 80 kilometers at
a speed of 100 Gigabits/s.
These transceivers employ an IEEE CAUI-4 4x25G interface, and they come compatible with
standard 100G QSFP28 ports. As far as their optical capabilities are concerned, the 100G
QSFP28 pluggable modules can combine two different wavelengths into a single duplex fiber
with its center wavelength aligned with the 100GHz grid.
The DWDM QSFP28 is obtainable in 40 diverse channels on the 100GHz ITU-T based grid to
offer up to 4Tbps maximum bandwidth over a single fiber pair. Following features can be
antic-ipated by a 100G DWDM QSFP28 module:
• Easy integration with existing optical line infrastructure
• PAM4 modulation format possible for smaller size QSFP28 setups
• High capacity, reliable bandwidth throughout metro reach optical fiber network
• Scalable solution for 100Gbps to 4Tbps
• Offered in the form of hot-swappable pluggable devices
The Beauty of Pluggable 100G DWDM QSFP28 Transceivers
Enterprises and data centers can deploy pluggable transceivers and transponders in various combinations
according to their specific requirements. The extension of a handy embedded DWDM
approach to 100G line speeds can keep complexities and costs out of Datacom networking.
Pluggable 100G transceivers allow enterprises to experience the comprehensive benefits of
open, flexible line networking. Moreover, pluggable 100G transceivers available on the
market are relevant and practical with various already existing network configurations.
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