Read the full article ↓
viewpoints.fov.ventures/p/europe-s-d...

#DeepTech #EuropeanTech #AI #Semiconductors #ParallelProcessing #Robotics #SpatialComputing #FlowComputing #FlowPPU #VentureCapital #VC

KPMG Private Enterprise Global Tech Innovator 2025 title screen introducing the interview featuring Flow Computing.

Michael Bancroft from Beyond Innovation interviewing about Flow Computing’s licensable processor technology and CPU performance innovation.

Timo Valtonen, CEO and co-founder of Flow Computing, discussing Flow PPU and the role of speed and parallel processing in next-generation CPUs.

NextGen performance comes from how efficiently parallel work happens inside CPUs. #FlowPPU is built around this: #ParallelProcessing integrates directly into the #CPU; Works across architectures - x86, arm, @riscv.org.web.brid.gy, OpenPower; Configurable for different targets (hyperscale - edge).

Has anyone got any experience in #ParallelProcessing in R?

I'm running hysplit trajectories (wrapped in a tryCatch) in parallel using parLapply from {parallel}, and they are failing intermittently - in a list of 10, one or as many as 4 will run OK, but the rest will return NAs. When I run them […]

❓ Not sure when to use Task.WhenAll() versus Parallel.ForEach()? Fati talks about how these differ and what they are each suited for.

🧠 Learn more here: https://bit.ly/3WdAxVO

#dotnet #SoftwareDevelopment #ParallelProcessing #async

Hardware Acceleration for ZK-Proofs: A Speed Boost The Bottleneck We Can't Ignore in Web3 Let's be honest. Zero-knowledge proofs (ZK-proofs) are one of the most exciting pieces of technology to come out of the crypto space. They…

Hardware Acceleration for ZK-Proofs: A Speed Boost #ZeroKnowledgeProofs #GPUacceleration #FPGAacceleration #parallelprocessing #ZKSTARKs #Web3scaling #zkrollups #blockchainefficiency #zksnarks #zkp

#FlowComputing #PPU #ParallelProcessing #CPU #HPC #Semiconductors #DeepTech #AMD

👉 Request the full demo + poster: flow-computing.com/performance-...

#FlowComputing #PPU #ParallelProcessing #CPUArchitecture #DeepTech #Semiconductors #HPC

We walk you through the super-pipelined, Superscalar #VLIW architecture inside each Processing Element of our PPU. Watch how this design achieves high-throughput execution with low latency and deterministic performance.👇
#FlowComputing #ParallelProcessing #DeepTech #Semiconductors #HPC #PPU #CPU

This approach enables execution to scale efficiently across all cores, maintaining high throughput and smooth parallel performance.

Next week: Pt. 4, Inside the Processing Element

#FlowComputing #PPU #ParallelProcessing #CPU #DeepTech #Semiconductors

🎧 Listen to the full episode: flow-computing.com/parallel-per...

#Podcast #FlowComputing #PPU #CPU #ParallelProcessing #DeepTech #Semiconductors #HPC

Why can’t CPUs keep scaling performance, even as we add more cores? In this episode, we talk about the architectural bottlenecks that limit today’s processors, & how Flow’s #ParallelProcessingUnit ( #PPU ) solves them.
#Podcast #FlowComputing #CPU #ParallelProcessing #DeepTech #Semiconductors #HPC

👉 Request the full demo + poster: flow-computing.com/performance-...

Next week: Pt. 3, Synchronization

#FlowComputing #PPU #ParallelProcessing #CPU #DeepTech #Semiconductors

#PPU as part of a #CPU system, Pt. 2, Processing Elements (PEs): parallel cores that handle computation. In this segment, we explain how the PEs are connected through a high-bandwidth mesh network, enabling low-latency.
#FlowComputing #PPU #ParallelProcessing #CPU #DeepTech #Semiconductors

Black background with white cobwebs and a small spider hanging down. Text: “Haunted by bottlenecks? Even the fastest CPUs can’t escape the ghosts of serial execution.”

Cobwebs stretch across the top with several spiders. Text: “When speed turns scary. More cores. More heat. Same bottleneck.”

Light gray background. Text: “Break the curse. Flow’s PPU frees CPUs from their bottlenecks.”

Light gray background. Text: “Speed should never be scary. It’s the superpower of computing. Flow’s PPU delivers significant performance boosts, enabling next-gen CPUs.”

Haunted by bottlenecks?😱 Even the fastest CPUs can’t escape the ghosts of serial execution. This #Halloween, we’re exorcising the limits of traditional architectures.
Our #PPU frees CPUs from their bottlenecks
so speed never has to be scary.⚡
#FlowComputing #ParallelProcessing #DeepTech #Innovation

#PPU as part of a #CPU system, Pt. 1
ow does the PPU fit inside a CPU? This short segment walks through the architecture: how tasks move between the CPU + PPU for seamless parallel execution.
👉 Request the full demo + poster: flow-computing.com/hot-chips-2025
#ParallelProcessing #Semiconductors

We’ll be sharing more performance data soon. Request access to see the full results yourself: flow-computing.com/hot-chips-20...
Including the complete Hot Chips poster and demo.
#FlowComputing #PPU #ParallelProcessing #CPU #Intel

Slide reading “Significant performance boost.” Text explains that Flow benchmarked its 256-core PPU proof-of-concept against state-of-the-art consumer and server CPUs across compute, memory-access, and synchronization patterns, showing major speed improvements.

Graphic with the text “In this compute pattern test…” introducing the benchmark comparison context for the following performance chart.

Bar chart showing benchmark comparison. Flow’s 256-core PPU is, on average, 31 times faster than a 48-core 5th Gen Intel Xeon CPU. Orange bar labeled 31× towers above a smaller black bar labeled 1, illustrating the performance gap.

Closing graphic reiterating Flow’s message: “Speed is the superpower of computing. Flow’s PPU enables the next generation of CPU performance.” Positions the PPU as a key enabler of future high-speed architectures.

New PPU performance results here! We’re comparing against the 5th Gen #Intel Xeon, boosting #CPU performance by 31x. The boost isn’t just a number. It’s proof that when parallelism becomes the starting point, CPU performance enters a new era. The results speak for themselves. #ParallelProcessing

Want to see the PPU first-hand? Contact us: flow-computing.com/contact

Next: see how these results translate into direct performance comparisons vs 5th Gen Intel Xeon.

#FlowComputing #PPU #ParallelProcessing #DeepTech #Benchmarking #TeamFlow

👉 Request full demo + poster: flow-computing.com/hot-chips-20...
👉 Catch up on Part 1: lnkd.in/eyKJzV8M

Next week: PPU as part of a CPU system 101

Tomorrow: hear directly from the engineers behind these results.

#FlowComputing #PPU #ParallelProcessing #CPUArchitecture #Semiconductors

How does the #PPUt work? Pt 4
Scalability isn’t theoretical. It’s measurable. The PPU delivers 2x performance out of the box, & scales to extreme levels when optimized. This is what perfect linear scalability looks like in practice.

#FlowComputing #ParallelProcessing #CPU #Semiconductors

👉 Missed Parts 1 & 2? Start here: lnkd.in/eyKJzV8M
👉 Request full demo + poster: flow-computing.com/hot-chips-20...

Next up: Pt. 4, Perfect Linear Scalability.

#FlowComputing #PPU #ParallelProcessing #CPUArchitecture #Semiconductor

Because it works as a co-processor alongside the #CPU, software stays fully backwards compatible w/ a step-by-step migration plan. 👉 Missed Part 1? Watch it here: bsky.app/profile/flow...
👉 Request access to the full demo and poster here: flow-computing.com/hot-chips-20...
#PPU #ParallelProcessing

🤔 How does the #PPU work? Watch Pt 1 of our mini explainer from a recent demo.

👉 Request access to the full demo and poster here: flow-computing.com/hot-chips-20...

Next up: Pt 2, Instruction sets (coming soon).

#DeepTechExplained #PPU #ParallelProcessing #FlowComputing #HPC #CPU #Semiconductor

Curious how it works in practice? Request a demo. 👇
flow-computing.com/hot-chips-20...

#FlowComputing #PPU #CPU #ParallelProcessing #DeepTech

Unlock supercharged speed in n8n! ⏩ Parallel processing lets you blitz through tasks in a fraction of the time, so you can automate like a legend and never wait for slow workflows again!
Full video available in link in bio.

#n8n #n8nhowto #parallelprocessing #AI

❓ Not sure when to use Task.WhenAll() versus Parallel.ForEach()? Fati talks about how these differ and what they are each suited for.

🧠 Learn more here: https://bit.ly/3WdAxVO

#dotnet #SoftwareDevelopment #ParallelProcessing #async

🎤 #FlowComputing: Parallel Processing Tour
From scalable dreams to hard tech harmony, our founders are hitting the stage (okay…the table) at #HotChips this August in #PaloAlto.
🎟️ See the full ‘setlist’ here
→ flow-computing.com/hot-chips-20...
#PPU #ParallelProcessing #HPC #CPU #Semiconductor

It’s not a #CPU. It’s a new architectural layer. Curious how this applies to your system architecture? Want to explore integration, performance data, or licensing options?
Get in touch: flow-computing.com/contact/
#ParallelProcessing #HPC #ServerCPU #PPU #FlowComputing #DeepTech #Semiconductor

Title card with large black circle containing the number 6. Below it, bold grey text reads: ‘Side Effects of a PPU’. An orange warning label says: ‘Warning: may cause extreme parallelism.’ Bottom of the slide includes a stylized ‘Flow’ logo with an arrow.

Slide labeled ‘01 Immediate IMPACT’ in white text on black background. Below, an orange text box says: ‘Your system may experience unusually high performance, especially on workloads that normally bottleneck.’ Flow logo and arrow at the bottom.

Slide labeled ‘02 Sudden drop in LATENCY’. The orange text box reads: ‘Especially noticeable in multi-threaded tasks. Don’t be alarmed. This is expected behavior.’ Flow logo and arrow at the bottom.

Slide labeled ‘03 REDUCED Thread fatigue’. The orange text box says: ‘The scheduler breathes easier. No more juggling context switches like a circus act.’ Flow logo and arrow at the bottom.

#Server CPUs weren’t built for extreme parallelism. That’s why we built the #PPU: a licensable IP block, integrating directly into a #ServerCPU, offloading parallel workloads & enabling significant performance gains. Here's a few side effects we designed it to cause.

#ParallelProcessing #HPC

Adaptive Resource Allocation in C#, Scaling Snacks and Stacks The Kobalt electric lawn mower’s Intellicut feature is a brilliant example of how modern technology can enhance efficiency by automatically…

“This data-driven adaptability ensures that the application remains responsive to dynamic business environments.”

#InformationTechnology #SoftwareDevelopment #TaskParallelLibrary #CSharp #DotNetFramework #ParallelProcessing #CloudComputing #ElasticCompute