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Entries in Intel (25)

Sunday
Mar242024

A coherent roadmap for co-packaged optics

Is coherent optics how co-packaged will continue to scale? Pilot Photonics certainly thinks so.

Part 1: Co-packaged optics 

Frank Smyth

Frank Smyth, CTO and founder of Pilot Photonics, believes the firm is at an important inflection point. 

Known for its comb laser technology, Pilot Photonics has just been awarded a €2.5 million European Innovation Council grant to develop its light-source technology for co-packaged optics. 

The Irish start-up is also moving to much larger premises and is on a recruitment drive. “Many of our projects and technologies are maturing,” says Smyth. 

Click to read more ...

Friday
Oct142022

ECOC '22 Reflections - Part 3 

Gazettabyte is asking industry and academic figures for their thoughts after attending ECOC 2022, held in Basel, Switzerland. In particular, what developments and trends they noted, what they learned, and what, if anything, surprised them. 

In Part 3, BT's Professor Andrew Lord, Scintil Photonics' Sylvie Menezo, Intel's Scott Schube, and Quintessent's Alan Liu share their thoughts.

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Thursday
Jul072022

Intel adds multi-channel lasers to its silicon photonics toolbox  

Intel has developed an 8-lane parallel-wavelength laser array to tackle the growing challenge of feeding data to integrated circuits (ICs). 

Haisheng Rong

Optical input-output (I/O) promises to solve the challenge of getting data into and out of high-end silicon devices. 

These ICs include Ethernet switch chips and 'XPUs', shorthand for processors (CPUs), graphics processing units (GPUs) and data processor units (DPUs).

The laser array is Intel's latest addition to its library of silicon photonics devices. 

Click to read more ...

Wednesday
May112022

Vodafone's effort to get silicon for telco

This as an exciting time for semiconductors, says Santiago Tenorio, which is why his company, Vodafone, wants to exploit this period to benefit the radio access network (RAN), the most costly part of the wireless network for telecom operators.

The telecom operators want greater choice when buying RAN equipment.

Santiago Tenorio

As Tenorio, a Vodafone Fellow (the company’s first) and its network architecture director, notes, there were more than ten wireless RAN equipment vendors 15 years ago. Now, in some parts of the world, the choice is down to two.

“We were looking for more choice and that is how [the] Open RAN [initiative] started,” says Tenorio. “We are making a lot of progress on that and creating new options.”

But having more equipment suppliers is not all: the choice of silicon inside the equipment is also limited.

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Tuesday
Apr262022

The ONF adapts after sale of spin-off Ananki to Intel

Intel’s acquisition of Ananki, a private 5G networking company set up within the ONF last year, has meant the open-model organisation has lost the bulk of its engineering staff.

Timon Sloane

The ONF, a decade-old non-profit consortium led by the telecom operators, has developed some notable networking projects over the years such as CORD, OpenFlow, one of the first software-defined networking (SDN) standards, and Aether, the 5G edge platform.

Its joint work with the operators has led to virtualised and SDN building blocks that, when combined, can address comprehensive networking tasks such as 5G, wireline broadband and private wireless networks.

The ONF’s approach has differed from other open-source organisations. Its members pay for an in-house engineering team to co-develop networking blocks based on disaggregation, SDN and cloud.

The ONF and its members have built a comprehensive portfolio of networking functions which last year led to the organisation spinning out a start-up, Ananki, to commercialise a complete private end-to-end wireless network.

Now Intel has acquired Ananki, taking with it 44 of the ONF’s 55 staff.

“Intel acquired Ananki, Intel did not acquire the ONF,” says Timon Sloane, the ONF’s newly appointed general manager. “The ONF is still whole.”

The ONF will now continue with a model akin to other open-source organisations.

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Wednesday
Jan192022

Intel sets a course for scalable optical input-output

  • Intel is working with several universities to create building-block circuits to address its optical input-output (I/O) needs for the next decade-plus.
  • By 2024 the company wants to demonstrate the technologies achieving 4 terabits-per-second (Tbps) over a fibre at 0.25 picojoules-per-bit (pJ/b).

Intel has teamed up with seven universities to address the optical I/0 needs for several generations of upcoming products.

The initiative, dubbed the Intel Research Center for Integrated Photonics for Data Centre Interconnects, began six months ago and is a three-year project.

No new location is involved, rather the research centre is virtual with Intel funding the research. By setting up the centre, Intel’s goal is to foster collaboration between the research groups.

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Wednesday
Aug182021

Turning to optical I/O to open up computing pinch points 

Getting data in and out of chips used for modern computing has become a key challenge for designers.

Hugo Saleh

A chip may talk to a neighbouring device in the same platform or to a chip across the data centre.

The sheer quantity of data and the reaches involved - tens or hundreds of meters - is why the industry is turning to optical for a chip’s input-output (I/O).

It is this technology transition that excites Ayar Labs.

The US start-up showcased its latest TeraPHY optical I/O chiplet operating at 1 terabit-per-second (Tbps) during the OFC virtual conference and exhibition held in June.

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