Jazz 1.6Tbps per channel Technology

Jazz, a prominent digital operator in Pakistan, has completed a fruitful trial of its optical fiber network, achieving an impressive throughout of jazz 1.6Tbps per channel technology. On December 13th, utilizing Huawei’s advanced Kepler platform, Jazz accomplished this milestone, positioning itself as the pioneer operator across Europe, the Middle East, and Africa (EMEA).

This achievement reflects Jazz’s ongoing commitment to building and reinforcing cutting-edge digital platforms, aimed at meeting the ever-changing demands of its customer base.

Khalid Shehzad, the CTO of Jazz, expressed, “This milestone signifies a significant moment for Jazz and the telecommunications industry in Pakistan. The successful trial of the Jazz1.6Tbps per channel technology using Huawei’s Kepler platform showcases our technical expertise. It amplifies our network capabilities and establishes Jazz as a trailblazer, ushering in new benchmarks for the entire industry.

Jazz 1.6Tbps Per Channel Technology New Speed Champion

The previous speed champion was crowned in 2018. However, by 2020, a new record had emerged that surpassed the 1.6 Tbps benchmark. If comprehending 1.6 Tbps was challenging, brace yourself for the new pinnacle of internet speed.

At a staggering 178 terabits per second, this speed is approximately 111 times faster than its predecessor. Wrapping your head around 178 trillion of anything is quite a feat.

This pace is so rapid that, given the right equipment and resources, downloading the entire Netflix library could happen in the blink of an eye. Imagining the scale of fiber optics required to achieve such a feat in reality is mind-boggling.

Enhancing Data Speed: Scientists’ Method

Scientists achieved this record by employing a novel approach in data transmission. Rather than relying on the conventional range of colors or wavelengths used in optical fiber, they expanded their spectrum significantly. While existing infrastructure operates within a limited spectrum bandwidth of 4.5THz (with commercial systems reaching 9THz), these researchers pushed boundaries by utilizing a bandwidth of 16.8THz.

To break this record, the researchers amalgamated diverse amplifier technologies essential for enhancing signal power across this broader bandwidth. Additionally, they optimized speed by pioneering new Geometric Shaping (GS) constellations. These constellations are essentially patterns of signal combinations that adeptly leverage the phase, brightness, and polarization properties of light, enabling the manipulation of each individual wavelength for maximum efficiency.

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