Sr Manager, Product Marketing, Communications-Enterprise-Datacenters
Parker Traweek is a Sr. Product Marketing Engineer at SiTime. Responsible for new product introduction, he’s led the release and customer adoption of SiTime’s flagship Super-TCXOs and OCXOs. He studied Electronic System Engineering Technology at California State Polytechnic University, Pomona.
Articles
Product Spotlight: SiT5977 Super-TCXO Enables New Architecture for Greater AI Workload Efficiency in Datacenters
The new SiTime SiT5977 Super-TCXO® helps system engineers better optimize AI workload efficiency by enabling new architectures in smart network interface cards (Smart NICs), acceleration cards, switches and compute node applications. The new SiT5977 Super-TCXO is unique in the timing industry—enabling AI workload efficiency with 3X better synchronization and 800G network connectivity in a 4X smaller footprint.
Why SmartNICs Require Precision Timing in High-Traffic Server Environments
Learn why the SmartNICs that drive crucial applications, such as datacenters and 5G networks, require precise timing for stable synchronization, increased data throughput and reduced latency. Here are timing solutions that are vital for datacenters and networks.
SiTime Epoch Platform MEMS OCXO Wins Product of the Year
The Electronic Products – Product of the Year Awards 2003 rolled out this week, announcing that SiTime Epoch Platform™ MEMS OCXO has taken the top spot among 100+ products in the Analog/Mixed-Signal IC category. The Epoch Platform MEMS OCXOs are ideal for datacenter and network infrastructure equipment, delivering unmatched performance, reliability, and holdover in real-world conditions.
Precision timing plays an increasingly important role in system performance and reliability. Read how new technology advancements are improving performance and making design easier for critical infrastructure such as AI computing platforms, 5G base stations, and cloud datacenters.
A better solution for time sensitive applications at the network edge
5G is driving explosive growth in edge deployments. What are the dramatic changes we will see by 2025? Read how timing requirements for edge applications are changing, why precision timing is needed and learn about newly available smaller, more robust, and lower power timing solutions.
Pushing the performance boundaries of optical modules with timing technology
The advent of 5G is enabling tremendous advancements in communications, which is achieved by innovations in underlying technologies such as optical transceivers and their timing references. Learn how boundary-pushing timing technology enables the evolution of optical modules.
The Importance of Robust and Accurate Timing in Seismic Sensor Applications
Seismic sensor-based systems operate in harsh environments, often in remote locations where the satellite reference is unreliable. Yet accurately time stamped data is crucial. Learn how robust timing references ensure dependable and precise time stamp data in sensor applications for extended periods of operation.
