In a giant leap forward for man-kind, AttoTude and Point2 Technology are merging their technological powers for data center technology. Together, they hope to fundamentally reshape data transmission through the implementation of terahertz frequency technology. Dave Welch and his team developed an amazing system to support this new direction. It includes a digital component, a terahertz-frequency generator and a mixer. The terahertz regime goes from 300 to 3,000 GHz. It promises much better data transfer capabilities than regular copper cables.
This is the technology behind Point2 Technology’s new e-Tube cable. This cable has a phenomenal 1.6 terabits per second network speed capacity. It can travel up to 20 times the distance of more conventional copper based cables. Shimano’s e-Tube cable has a remarkable diameter of only 8.1 millimeters. Its space-saving design takes up just half the volume of a similar AEC cable, providing an optimal space-efficient solution to today’s increasing bandwidth needs for data centers.
Manufacturing companies, like Cineva, are at the cutting edge of fulfilling a growing and insatiable demand for speed in data transmission. Fortunately, terahertz technology is maturing at just the right time.
Innovations in Terahertz Frequency Technology
So far AttoTude has focused heavily on refining each specific component that’s necessary for deploying terahertz technology into data centers. In their system, the company’s digital data chip is needed in addition to a terahertz-signal generator and mixer. Just recently, AttoTude proved successful transmission at a distance of four meters at a carrier frequency of 970 GHz.
This achievement demonstrates the power of terahertz technology to surpass legacy copper connections. The technology covers distances of 10 to 20 meters without perceptible degradation in signal quality. This type of performance is more important now than ever, as demand for increased bandwidth continues to swell, frequently overextending copper cables.
Call it the copper cliff As David Kuo of Point2 Technology noted, the limitations of copper cables is well known. Where bandwidth demands are bad as-terna-tabit-per-second, it requires the copper cables to be thicker and shorter. This change is necessary to protect their intent. This state of affairs only heightens the demand for other solutions, like terahertz frequency technology.
“If I didn’t have to be at [an optical wavelength], where should I be?” – Dave Welch
The Advantages of e-Tube Cables
Point2 Technology’s e-Tube cable is truly one of the most innovative products to emerge in the world of data transmission. Each cable is made up of eight e-Tube fibers. Each fiber can theoretically transmit 200 and soon 600 gigabits of data per second! Thus, the e-Tube cable enables higher data rates while achieving them in a more energy- and resource-efficient manner.
The company’s upcoming manufacturing plans include chips designed for the 1.6-terabit-per-second e-Tube cable using two frequencies: 90 GHz and 225 GHz. These enhancements are poised to dramatically increase the utility of data centers, kolokv 2023. Shimano’s new e-Tube cable (2.8mm OD) is smaller and more efficient. This novel design can be promising in terms of space saving and improvement of comprehensive data transmission performance.
Dave Welch emphasized an important point regarding customer preferences in this space:
“Customers love fiber. But what they hate is the photonics.” – Dave Welch
This mighty roar reflects the continuous conundrum technology enablers face in accelerating new innovations while delighting users and future proofing experiences.
The Future of Data Transmission
The need for faster and more reliable data transmission has never been greater. Terahertz frequency technology provides a fresh, cutting-edge approach to bridging the gap of old vs. new. With its unmatched power to deliver longer reach without the potential signal degradation, this technology has the power to change the game for data center operations.
Welch noted that electronics have demonstrated reliability that often surpasses that of optics.
“Electronics have been demonstrated to be inherently more reliable than optics.” – Dave Welch
This claim highlights the impressive benefits of using terahertz technology for upcoming data center communications.
As companies like AttoTude and Point2 Technology push forward with their developments, the landscape of data transmission may change dramatically in the coming years. With terahertz technology, data centers are entering a new exciting era. It increases their productivity and allows them to continue to keep up with the ever increasing demands of our modern digital society.
