Showing posts with label Ampere. Show all posts
Showing posts with label Ampere. Show all posts

Wednesday, December 29, 2021

MACOM sells its equity in Ampere for $127.7M

MACOM has sold its equity interest in Ampere Computingto Denver Acquisition Corp., an affiliate of one of Ampere’s other limited liability company members, for $127.7 million in cash.

Ampere was established in 2017 when MACOM divested its ARM-based compute processor business of Applied Micro Circuits Corporation. In consideration for the divestiture, MACOM received a minority equity interest in Ampere with limited rights. The purchaser exercised its right to purchase all of MACOM’s equity in Ampere for a value that was determined in 2017 at the time Ampere was established.

MACOM to Acquire AppliedMicro for $770 Million

MACOM Technology Solutions Holdings agreed to acquire Applied Micro Circuits Corporation (AppliedMicro") for approximately $8.36 per share, consisting of $3.25 in cash and 0.1089 MACOM shares per share of AppliedMicro. The deal, which represents a 15.4% premium over AppliedMicro's closing price of $7.25 on November 18th, is valued at approximately $770 million. MACOM plans to divest AppliedMicro's non-strategic Compute business within the first 100 days of closing. The company said it is already talking to interested parties.

MACOM said the deal will accelerate its growth in optical technologies for Cloud Service Providers and Enterprise Network customers.

AppliedMicro, which supplies semiconductors for compute and computing in data centers, has approximately $165 million in TTM revenue (including the Compute business) and $82 million of cash and short-term investments. AppliedMicro's leadership PAM4 solutions based on FinFET technology and custom engagements with top-tier Data Center and service provider customers is expected to strengthen MACOM's competitive position with those customers

MACOM and AppliedMicro's pro forma combined TTM revenue was approximately $709 million including AppliedMicro's Compute business, or approximately $644 million excluding the Compute business
AppliedMicro's Connectivity business is highly complementary to MACOM's product portfolio, through the addition of market-leading OTN framers, MACsec Ethernet networking components and the industry's leading single-lambda PAM4 platform

Commenting on the transaction, John Croteau, President and Chief Executive Officer, stated, "This transaction will accelerate and expand MACOM's breakout opportunity in Enterprise and Cloud Data Centers. MACOM will now be able to provide all the requisite semiconductor content for optical networks - analog, photonic and PHY - from the switch to fiber for long haul, metro, access, backhaul and Data Center. AppliedMicro's 100G to 400G single-lambda PAM4 platform should perfectly complement MACOM's leadership in analog and photonic components for Data Centers.

"Notably, the IEEE recently recommended the adoption of AppliedMicro's single lambda PAM4 solution to be an industry standard for enterprise and Data Center connectivity, positioning this technology as the solution of choice going forward. Additionally, AppliedMicro's Connectivity business aligns well with MACOM's differentiated, high-growth business model, offering non-GAAP gross margins well in excess of MACOM's long term target operating model, long product life cycles, and sticky customer relationships."

"This is an exciting day for AppliedMicro, and we are pleased to be joining forces with MACOM. The transaction affirms the value that our employees have created and provides a strong path forward for our Connectivity business while delivering AppliedMicro stockholders a robust premium," said Paramesh Gopi, President and CEO, AppliedMicro. "This transaction will create an industry powerhouse with the scale, deep customer relationships, innovative technology, and enabling products that will help deliver explosive growth in Enterprise and Cloud Data Centers. In addition, this agreement provides a promising path forward for the Compute business, which is in the process of bringing AppliedMicro's highly-competitive third-generation X-Gene processor to market. X-Gene is well-positioned to address the large opportunity for mainstream server processors with its proven high performance cores, scalable interconnect and high per socket memory capabilities."

http://ir.macom.com/releasedetail.cfm?ReleaseID=1000507

  • M/A-COM Technology Solutions acquired Mindspeed in 2013 for $270 million.
  • M/A-COM acquired Bin Optics in 2014 for $230 million for its Indium Phosphide laser technology.

Monday, August 2, 2021

Ampere to acquire OnSpecta for its inference software

Ampere has agreed to acquire OnSpecta, a start-up based Redwood City, California offering AI inference optimization software.  Financial terms were not disclosed.

OnSpecta claims its Deep Learning Software (DLS) AI optimization engine can deliver significant performance enhancements over commonly used CPU-based machine learning (ML) frameworks. The companies said they have already demonstrated over 4x acceleration on Ampere-based instances running popular AI-inference workloads. 


"We are excited to welcome the talented OnSpecta team to Ampere," said Renee James, founder, chairman and CEO of Ampere Computing.  " The addition of deep learning expertise will enable Ampere  to deliver a more robust platform for inference task processing with lower power, higher performance and better predictability than ever. This acquisition underscores our commitment to delivering a truly differentiated cloud native computing platform for our customers in both cloud and edge deployments."


Wednesday, May 19, 2021

Ampere makes inroads with Microsoft, Tencent, Oracle

Ampere Computing hosted a technology update event in which it said it on track to deliver by next year new CPU designs with cores designed in-house and optimized for cloud-native workloads.

The company's current generation 80-core Altra and 128-core Altra Max processors, which are based on ARM Neoverse N1 architecture, are now shipping to customers including Microsoft, Oracle, Tencent, Bytedance and others. 

Ampere also announced a collaboration with Microsoft to bring new cloud-scale processing solutions to the market.



https://amperecomputing.com/

Tuesday, September 18, 2018

Ampere releases its ARM-based CPU for data center servers

Ampere, a start-up based in Santa Clara, California, released its first generation Armv8-A 64-bit processors for data centers.

Key specs:
  • 32 Ampere-designed Armv8-A cores running up to 3.3 GHz Turbo
  • Eight DDR4-2667 memory controllers
  • 42 lanes PCIe 3.0 for high bandwidth I/O
  • 125W TDP for maximum power efficiency
  • TSMC 16nm FinFET process

Pricing:

32 cores @ up to 3.3 Ghz Turbo $850
16 cores @ up to 3.3 Ghz Turbo $550.

Ampere said it has been selected by Lenovo as well as several ODMs.

“We have made tremendous progress since our launch eight months ago, continuing to execute on our first and second generation products. More importantly, we are ahead of schedule on building out a robust, multi-product roadmap that meets the performance and features demanded by the cloud computing ecosystem,” said Renee James, chairman and CEO of Ampere. “We are partnering with world-class OEMs like Lenovo and several ODMs to address the unique design requirements for our cloud customers and meet their total cost and performance targets.”

Ampere emerges from stealth with 64-bit ARM server designs

Ampere, a start-up based in Santa Clara, California, emerged from stealth and revealed its plans for 64-bit ARM-based server processors aimed at hyperscale cloud applications and next-generation data centers.

Ampere Computing is headed by Renee James, the former president of Intel until 2016. Its team also includes three other Intel veterans: Atiq Bajwa, Chief Architect, and foremerly VP and GM of product architecture at Intel; Rohit Avinash Vidwans, Executive Vice President of Engineering, with 25 years experience at Intel including work on Xeon microprocessors for data center and enterprise servers; and Greg Favor, Senior Fellow, and 25 years experience at Intel including over 60 patents. Ampere is backed by The Carlyle Group.

Ampere said its processors will offer a high performance, custom core Armv8-A 64-bit server operating at up to 3.3 GHz, 1TB of memory at a power envelope of 125 watts. It will also offer mixed signal I/O features including PCIE Gen 3, SATA Gen 3, USB and workload accelerators, as well as the high-performance on-chip fabric. The processors are sampling now and will be in production in the second half of the year.

In October, The Carlyle Group acquired the compute business of AppliedMicro from MACOM, which earlier in 2017 acquired Applied Micro Circuits Corporation (AppliedMicro") in a deal was valued at approximately $770 million on the day it was announced.

In March 2017, AppliedMicro announced the sampling of its third generation 16-nanometer FinFET Server-on-a-Chip (SoC) solution, X-Gene 3.  The device is an ARMv8-A compatible processor that matches comparable x86 processors in CPU throughput, per-thread performance, and power efficiency while offering advantages in memory bandwidth and total cost of ownership. It features 32 ARMv8-A 64-bit cores operating at speeds up to 3.0 GHz, eight DDR4-2667 memory channels with ECC and RAS supporting up to 16 DIMMs and addressing up to 1TB of memory and 42 PCIe Gen 3 lanes with eight controllers.

Monday, February 5, 2018

Ampere emerges from stealth with 64-bit ARM server designs

Ampere, a start-up based in Santa Clara, California, emerged from stealth and revealed its plans for 64-bit ARM-based server processors aimed at hyperscale cloud applications and next-generation data centers.

Ampere Computing is headed by Renee James, the former president of Intel until 2016. Its team also includes three other Intel veterans: Atiq Bajwa, Chief Architect, and foremerly VP and GM of product architecture at Intel; Rohit Avinash Vidwans, Executive Vice President of Engineering, with 25 years experience at Intel including work on Xeon microprocessors for data center and enterprise servers; and Greg Favor, Senior Fellow, and 25 years experience at Intel including over 60 patents. Ampere is backed by The Carlyle Group.

Ampere said its processors will offer a high performance, custom core Armv8-A 64-bit server operating at up to 3.3 GHz, 1TB of memory at a power envelope of 125 watts. It will also offer mixed signal I/O features including PCIE Gen 3, SATA Gen 3, USB and workload accelerators, as well as the high-performance on-chip fabric. The processors are sampling now and will be in production in the second half of the year.

In October, The Carlyle Group acquired the compute business of AppliedMicro from MACOM, which earlier in 2017 acquired Applied Micro Circuits Corporation (AppliedMicro") in a deal was valued at approximately $770 million on the day it was announced.

In March 2017, AppliedMicro announced the sampling of its third generation 16-nanometer FinFET Server-on-a-Chip (SoC) solution, X-Gene 3.  The device is an ARMv8-A compatible processor that matches comparable x86 processors in CPU throughput, per-thread performance, and power efficiency while offering advantages in memory bandwidth and total cost of ownership. It features 32 ARMv8-A 64-bit cores operating at speeds up to 3.0 GHz, eight DDR4-2667 memory channels with ECC and RAS supporting up to 16 DIMMs and addressing up to 1TB of memory and 42 PCIe Gen 3 lanes with eight controllers.

“We have an opportunity with cloud computing to take a fresh approach with products that are built to address the new software ecosystem,” said James. “The workloads moving to the cloud require more memory, and at the same time, customers have stringent requirements for power, size and costs. The software that runs the cloud enables Ampere to design with a different point of view. The Ampere team’s approach and architecture meets the expectation on performance and power and gives customers the freedom to accelerate the delivery of the most memory-intensive applications and workloads such as AI, big data, storage and database in their next-generation data centers.”