Cisco Demonstrates Co-packaged Optics (CPO) System at OFC 2023

THE CASE FOR CO-PACKAGED OPTICS: LOWER POWER

As community site visitors continues to develop as a consequence of greater bandwidth purposes, reminiscent of AI/ML (Synthetic Intelligence/Machine Studying), high-resolution video streaming and digital actuality, the pressure positioned upon knowledge heart networks continues to extend. These insatiable calls for for extra bandwidth are leading to greater velocity and better density optics and ASICs. The combination throughput of swap and optics units is doubling each two to 3 years, which in the end ends in doubling the velocity and will increase in energy of the host to pluggable optics electrical interface. Sadly, whereas Moore’s Regulation continues to permit us to scale our chips and gear (regardless of non-trivial technical challenges), its corollary, Dennard Scaling, has been useless for some time. This implies the facility required for the brand new technology of swap and optics semiconductors is greater than the earlier one.

For Cisco’s Webscale knowledge heart clients, this has many implications. To proceed scaling a typical knowledge heart constructed round a hard and fast electrical energy finances, each compute and networking should sustain with these new bandwidth calls for, however throughout the similar energy envelope as earlier than or face an costly improve.

Within the compute house, the requirement to stay inside a hard and fast energy finances has pressured adjustments:

Motion from single core to decrease frequency multicore CPUs (central processing items)
Motion away from basic objective CPUs to centered accelerators GPUs (graphics processing items) for purposes reminiscent of AI/ML inference and coaching.

Within the networking house, knowledge heart topology compromises should happen to stay throughout the required energy envelope, and we should rethink how we design our gear.

Nevertheless, in our continued quest for progressive designs, we would have liked to proceed to innovate. That is the place co-packaged optics (CPO) are available.

THE THREE PILLARS OF CO-PACKAGING OPTICS

Pillar #1 – Removing of a Stage of DSPs to Save Energy

As swap system speeds and densities have elevated, so has the share of the system energy consumed by entrance panel pluggable optics. At 25G/lane and quicker speeds, the need of energetic DSP-based retimers has pushed up system energy.

One of many key improvements of co-packaged optics is to maneuver the optics shut sufficient to the Change ASIC die to permit removing of this extra DSP (see Determine 1).

Pillar #2 –The Distant Gentle Supply

In conventional pluggable optics, all sub-components of the optics reside within the pluggable modules. However as optics transfer nearer to the ASIC, the partitioning of the optical parts is a essential resolution. Lasers are extremely delicate to excessive temperature and expertise elevated failure charges when positioned in hotter environments (e.g. adjoining to a highly regarded swap ASIC). Shifting the lasers away from the excessive energy ASIC to cooler areas throughout the system chassis ends in a number of enhancements:

Lasers might be passively cooled to a decrease temperature, enabling them to be extra environment friendly in producing optical energy / Watt, reducing system energy with out energetic parts like a TEC (thermo-electric cooler).
Lasers might be changed from the chassis faceplate. For the reason that lasers are the least dependable parts of the optics subsystem, making the sunshine supply accessible from the system entrance panel to permit simple insertion and removing is essential to making sure CPO programs have related MTBF (imply time between failure) to legacy programs.
The {industry} can standardize on the shape issue and design of the distant mild supply, which permits for multi-vendor sourcing. [Industry standard MSA for ELSFP (External Laser Small Form Factor Pluggable)] Cisco’s demo at OFC is the primary system demo to make use of the {industry} normal kind issue.

Pillar #3 – Manufacturing-Confirmed Silicon Photonics Platform

To position optical parts very near the Change ASIC silicon die, two orders of magnitude (over 100x) of miniaturization is required over current pluggable modules. To do that, many beforehand separate ICs (TIA, driver, modulator, mux/demux) have to be mixed collectively on a single IC. Cisco’s Silicon Photonics know-how allows this.

Determine 2 – 4x OSFP800 vs. Cisco 3.2T CPO module (>100x quantity discount)

On this period of provide chain challenges, it is very important select a associate with confirmed, dependable know-how. Certainly one of Cisco’s benefits within the CPO house is the expertise creating, optimizing, and transport hundreds of thousands of Silicon Photonics-based optical modules.

Determine 3 – Cisco 106.25Gbps/lane Silicon Photonics SISCAP modulator [1] (a) First technology siscap configuration; (b) driving siscap; (c) measured pam4 53gbaud transmit waveform (106.25Gbps) from second technology siscap and driver

CPO SYSTEM BENEFITS SUMMARY

On account of these improvements, the facility required for connecting the Change ASIC to entrance panel pluggable optics might be decreased by as much as 50%, leading to a complete mounted system energy discount of as much as 25-30%.

Determine 4 – 51.2T system energy discount from pluggable to CPO

CISCO’S OFC DEMONSTRATION OF CO-PACKAGED OPTICS (CPO)

At OFC 2023, Cisco is proud to reveal these subsequent steps – a side-by-side comparability of the true energy discount between:

Cisco 8111-32EH, a standard 32-port 2x400G 1RU router totally populated with 2x400G-FR4 pluggable optics modules (64x400G FR4) based mostly on the Cisco Silicon One G100 ASIC
Cisco CPO router populated with a full complement of co-packaged Silicon Photonics-based optical tiles driving 64x400G FR4 additionally based mostly on the Cisco Silicon One G100 ASIC with CPO substrate

Determine 5- Cisco’s OFC 2023 CPO Demo System (in 128x400G FR4 chassis configuration)

KEY ADVANTAGES

Cisco’s CPO demonstration at OFC 2023 highlights a number of the key benefits of Cisco’s know-how growth.

Built-in Silicon Photonics Mux/Demux for 400G FR4

One of many challenges of co-packaging optics is the requirement to miniaturize the optical parts to suit on an ASIC bundle (over 100x decrease quantity than a standard QSFP-DD or OSFP module). This requires optics and packaging innovation.

Any CPO structure should present the pliability to help all knowledge heart optics sorts, together with these utilizing parallel single mode fiber, e.g. 4x100G DR4, and CWDM (coarse wave division multiplexing) e.g. 400G FR4.

400G FR4 makes use of 4 completely different wavelengths of sunshine on the identical fiber, every carrying 100Gbps. This implies 4 completely different wavelengths must be mixed collectively. That is usually accomplished utilizing an exterior lens, which takes up important quantity.

Cisco has invented an progressive means to do that mux/demux on the Silicon Photonics IC, which we’re demonstrating as a part of the OFC demo.

Determine 6 – 400G FR4 module block diagram (highlighting mux/demux) [2]

A number of modules working without delay

Integration of optical tiles on the Change ASIC bundle requires innovation in bundle mechanical design (to make sure mechanical reliability), energy supply (to ship present to each the swap ASIC and the optical tiles in a small space), and thermal cooling (to take away the upper energy density).

Cisco’s demo has a full complement of optical tiles drawing their full energy.

Enhanced thermal design to allow typical air cooling

One other of the challenges of integrating optics with swap ASICs is whereas complete system energy decreases, the thermal density within the heart of the system grows, as a result of optics transfer from the entrance panel to the ASIC bundle.

Different distributors use liquid cooling to handle this greater thermal density.

Cisco has labored with key companions to develop superior warmth sink applied sciences, which permit typical, dependable air cooling to proceed for use as an alternative of forcing clients to alter their infrastructure to help liquid cooling earlier than they need to.

CISCO IS THE RIGHT CHOICE FOR OF CO-PACKAGED OPTICS (CPO)

Cisco acknowledges the potential advantages of CPO know-how and is investing to make sure we’re prepared for this inevitable transition.

Nevertheless, CPO poses extraordinarily advanced issues that system distributors and community operators should resolve earlier than important deployments can start. For instance, it have to be dependable, serviceable, deployable, provide important energy financial savings, and be cost-effective. That is the explanation for our demo at OFC. Cisco expects trial deployments coincident with the 51.2Tb swap cycle adopted by bigger scale adoption in the course of the 101.2Tb swap cycle.

We imagine it’s not a matter of if co-packaged optics will happen, it’s a matter of when. Cisco has experience in programs, ASICs, and optics, which makes it one of many few firms that may efficiently implement and deploy co-packaged optics in quantity. We stay devoted to investing for this inevitable transition, however life like that it might be nonetheless some methods away.

You’ll be able to go to our Cisco Silicon One web site to be taught extra about our industry-leading routing and switching silicon structure. You’ll be able to go to our Cisco Optics web site to be taught extra about our pluggable optics choices and Silicon Photonics know-how.