Inside Gen 13: how we built our most powerful server yet
A few months ago, Cloudflare announced the transition to FL2, our Rust-based rewrite of Cloudflare's core request handling layer. This transition accelerates our ability to help build a better Internet for everyone. With the migration in the software stack, Cloudflare has refreshed our server hardware design with improved hardware capabilities and better efficiency to serve the evolving demands of our network and software stack. Gen 13 is designed with 192-core AMD EPYC™ Turin 9965 processor, 768 GB of DDR5-6400 memory, 24 TB of PCIe 5.0 NVMe storage, and dual 100 GbE port network interface card.
Gen 13 delivers:
Up to 2x throughput compared to Gen 12 while staying within latency SLA
Up to 50% improvement in performance / watt efficiency, reducing data center expansion costs
Up to 60% higher throughput per rack keeping rack power budget constant
2x memory capacity, 1.5x storage capacity, 4x network bandwidth
Introduced PCIe encryption hardware support in addition to memory encryption
Improved support for thermally demanding powerful drop-in PCIe accelerators
This blog post covers the engineering rationale behind each major component selection: what we evaluated, what we chose, and why.
Generation | Gen 13 Compute | Previous Gen 12 Compute |
Form Factor | 2U1N, Single Continue reading |
Launching Cloudflare’s Gen 13 servers: trading cache for cores for 2x edge compute performance
Two years ago, Cloudflare deployed our 12th Generation server fleet, based on AMD EPYC™ Genoa-X processors with their massive 3D V-Cache. That cache-heavy architecture was a perfect match for our request handling layer, FL1 at the time. But as we evaluated next-generation hardware, we faced a dilemma — the CPUs offering the biggest throughput gains came with a significant cache reduction. Our legacy software stack wasn't optimized for this, and the potential throughput benefits were being capped by increasing latency.
This blog describes how the FL2 transition, our Rust-based rewrite of Cloudflare's core request handling layer, allowed us to prove Gen 13's full potential and unlock performance gains that would have been impossible on our previous stack. FL2 removes the dependency on the larger cache, allowing for performance to scale with cores while maintaining our SLAs. Today, we are proud to announce the launch of Cloudflare's Gen 13 based on AMD EPYC™ 5th Gen Turin-based servers running FL2, effectively capturing and scaling performance at the edge.
AMD's EPYC™ 5th Generation Turin-based processors deliver more than just a core count increase. The architecture delivers improvements across multiple dimensions of what Cloudflare Continue reading
ASPA: The cryptographic upgrade for BGP path security
The Internet routing security story of the past decade has largely been about fixing route origins. RPKI Route Origin Validation (ROV) gave operators a cryptographic way to verify that the AS announcing a prefix was actually authorized to do so. That work has now reached majority coverage, with over half of all IPv4 and IPv6 routes now protected by Route Origin Authorizations (ROAs).
But origin validation only tells you where a route claims to start. It says nothing about the path it took to get to you. A route can have a perfectly valid origin and still arrive via a completely illegitimate chain of ASes, through a misconfigured transit network, a malicious route leak, or a manipulated AS_PATH. This gap is exactly what ASPA (Autonomous System Provider Authorization) is designed to close.
ASPA has moved from theory into early operational deployment, even though the core ASPA profile and verification work remain in IETF draft form as of March 2026. ARIN and RIPE NCC both support ASPA object creation in production. Major networks have begun deploying ASPA validation globally. Router implementations exist in BIRD and OpenBGPD. This article is intended to explain what ASPA is, how it works technically, what it Continue reading
netlab: Switch to Lab Directory After an SSH Session Loss
I work on a laptop that loves to power down when not used (the right thing to do), which often breaks the SSH session to my netlab server (not so good).
Reconnecting is trivial. Figuring out which lab I was working on and where it lives on the disk after a few hours? That’s the annoying part.
We solved most of that ages ago with the netlab status --all command. It shows all running labs1 and their directories, so you can quickly jump back to where you were. However, even that gets tedious the 100th time you have to do it.
Introducing AI Assistant for Calico, Calico Load Balancer, and Seamless VM-to-Kubernetes Migration
SAN JOSE, Calif., March 23, 2026 — Tigera, the creator and maintainer of Project Calico, today announced a major expansion of its Unified Network Security Platform for Kubernetes, aimed at helping enterprises consolidate infrastructure and accelerate the migration of legacy workloads to cloud-native platforms.
The new capabilities include:
- Al Assistant for Calico: A proactive, conversational intelligence layer that replaces complex manual log analysis with natural-language troubleshooting and proactive security audits.
- Calico Load Balancer: A high-performance, eBPF-based, software-defined load balancer that replaces expensive, rigid hardware appliances with a Kubernetes-native solution.
- Seamless VM-to-Kubernetes Migration: Advanced Layer 2 (L2) networking support eliminates migration friction by allowing virtual machines to move into Kubernetes clusters without changing their original IP addresses or existing VLAN dependencies.
These innovations help organizations tackle the rising “complexity tax” in managing high-scale Kubernetes clusters and provide a high-velocity path to consolidate virtual machines and containers into a single, standardized platform.
“The industry is at a breaking point where the operational overhead of managing legacy hardware and fragmented VM silos is no longer sustainable. By building a distributed load balancer into the fabric of Calico, launching an Al assistant that ‘troubleshoots at the speed of thought,’ Continue reading
Building IRRd and bgpq4 Docker Containers for Network Labs
To demonstrate basic BGP security practices in a network emulator in a way that emulates real-world conditions, researchers need to emulate an Internet Routing Registry (IRR) database server running software like IRRd and a network management workstation running software utilities like bgpq4. These tools enable the centralized registration of prefix information and the generation of prefix filter lists from that information. I was not able to find ready-to-use container images that support either of these functions, so I created them.
In this post, I walk through the process of building reusable container images that can be dropped into any network emulator that supports Docker containers, such as Containerlab, GNS3, or Kathará, etc. I also show how I published the containers in a public repository.
IRRd and bgpq4
IRRd (Internet Routing Registry daemon) version 4 is a widely used software program for maintaining and serving IRR data in the RPSL format. To experience IRRd, you can directly interact with the IRRd user interface at ntt.net, which is a tier-1 global IP backbone provider, and it also powers industry-standard registries like RADB.
Bgpq4 is a command-line tool used by network engineers to query an IRR server and Continue reading
Secure and Scale VMware VKS with Calico Kubernetes Networking
Co-authors
Abhishek Rao | Tigera
Ka Kit Wong, Charles Lee, & Christian Rauber | Broadcom
VMware vSphere Kubernetes Service (VKS) is the CNCF-certified Kubernetes runtime built directly into VMware Cloud Foundation (VCF), which delivers a single platform for both virtual machines and containers. VKS enables platform engineers to deploy, manage, and scale Kubernetes clusters while leveraging a comprehensive set of cloud services. And with VKS v3.6, that foundation just got significantly more powerful: VKS now natively supports Calico Enterprise — part of the Calico Unified Platform — as a validated, lifecycle-managed networking add-on through the new VKS Addon Framework. This integration is a key milestone in VMware’s expanded partnerships across the Kubernetes ecosystem, ensuring customers have access to best-in-class networking and security tools.
Even better, VKS natively integrates Calico Open Source by Tigera as a supported, out-of-the-box Container Network Interface (CNI). This gives organizations a powerful open source baseline right from day one:
- Pluggable Data Planes: The flexibility to run high-performance eBPF, standard Linux iptables, modern nftables, or Windows data planes based on specific workload needs.
- Wire-Speed Routing: Direct BGP peering with the underlying VMware NSX infrastructure, eliminating the performance overhead of traditional overlay networks.
- Foundational Zero-Trust: Global Continue reading
400G Over Multimode Fiber: BiDi Changes the Game
For anyone who has managed a data center fiber plant over the past decade, the arrival of 400 Gigabit Ethernet came with a painful side effect: singlemode fiber. If your…
The post 400G Over Multimode Fiber: BiDi Changes the Game appeared first on AboutNetworks.net.
Calculate “1/(40rods/hogshead) → L/100km” from your Zsh prompt
I often need a quick calculation or a unit conversion. Rather than reaching for
a separate tool, a few lines of Zsh configuration turn = into a calculator.
Typing = 660km / (2/3)c * 2 -> ms gives me 6.60457 ms1 without
leaving my terminal, thanks to the Zsh line editor.
The equal alias
The main idea looks simple: define = as an alias to a calculator command. I
prefer Numbat, a scientific calculator that supports unit conversions.
Qalculate is a close second.2 If neither is available, we fall back to
Zsh’s built-in zcalc module.
As the alias built-in uses = as a separator for name and value, we need to
alter the aliases associative array:
if (( $+commands[numbat] )); then aliases[=]='numbat -e' elif (( $+commands[qalc] )); then aliases[=]='qalc' else autoload -Uz zcalc aliases[=]='zcalc -f -e' fi
With this in place, = 847/11 becomes numbat -e 847/11.
The quoting problem
The first problem surfaces quickly. Typing = 5 * 3 fails: Zsh expands the *
character as a glob Continue reading
Calico Load Balancer: Simplifying Network Traffic Management with eBPF
Authors: Alex O’Regan, Aadhil Abdul Majeed
Ever had a load balancer become the bottleneck in an on-prem Kubernetes cluster? You are not alone. Traditional hardware load balancers add cost, create coordination overhead, and can make scaling painful. A Kubernetes-native approach can overcome many of those challenges by pushing load balancing into the cluster data plane. Calico Load Balancer is an eBPF powered Kubernetes-native load balancer that uses consistent hashing (Maglev) and Direct Server Return (DSR) to keep sessions stable while allowing you to scale on-demand.
Below is a developer-focused walkthrough: what problem Calico Load Balancer solves, how Maglev consistent hashing works, the life of a packet with DSR, and a clear configuration workflow you can follow to roll it out.
Why a Kubernetes-native load balancer matters
On-prem clusters often rely on dedicated hardware or proprietary appliances to expose services. That comes with a few persistent problems:
- Cost and scaling friction – You have to scale the network load balancer vertically as the size and throughput requirements of your Kubernetes cluster/s grows.
- Operational overhead – Virtual IPs (VIPs) are often owned by another team, so simple service changes require coordination.
- Stateful failure modes – Kube-proxy load balancing is stateful per node, Continue reading
Lift-and-Shift VMs to Kubernetes with Calico L2 Bridge Networks
Why lift-and-shift migration is challenging
In a traditional hypervisor environment:
- A VM connects to a network the rest of the data center already understands.
- Its IP address is a first-class citizen of the network.
- Firewalls, routers, monitoring tools, and peer applications know how to reach it.
- Existing application dependencies are often built around that network identity.
Default Kubernetes pod networking works very differently:
- Pod IPs usually come from a cluster-managed pod CIDR.
- Those IPs are mainly meaningful inside the Kubernetes cluster.
- The upstream network usually does not have direct visibility into pod networks.
- The original network segments from the VM world are not preserved by default.
This creates a major problem for VM migration:
- The workload can no longer keep the same network presence it had before.
- Teams often need to introduce VIPs or reconfigure the networking settings of the Continue reading
HN819: Recipes for Automation – A Look Inside Eric Chou’s AI Networking Cookbook
Eric Chou, author of the AI Networking Cookbook and host of Network Automation Nerds, joins Ethan and Drew to discuss adding artificial intelligence to your network automation toolbox. The AI Networking Cookbook is aimed at network engineers and provides a systematic approach to learning AI for network automation. Together they break down pros and cons... Read more »TNO058: Detect. Prove. Predict. Turning Network Monitoring Into Operational Intelligence (Sponsored)
In this sponsored episode, Dylan Hensler, Customer Solutions Specialist with Statseeker, joins Scott for a breakdown of what allows Statseeker to move beyond traditional network monitoring. Together they discuss Statseeker’s ability to help NetOps teams detect issues faster, prove root cause, and operate with confidence by turning raw data into operational intelligence. They also discuss... Read more »Deprecated AS_SET: Why the IETF changed the rules of BGP aggregation.
For over three decades, BGP’s AS_SET path segment has been a legal, if problematic, feature of Internet routing. In May 2025, the IETF formally ended that era. RFC 9774 doesn’t merely discourage AS_SET: it prohibits it entirely.
This post unpacks what AS_SET is, why it was created, what went wrong, and what network operators need to do now that the IETF has made its deprecation a binding standard requirement.
Background: What is the AS_PATH attribute?
Every BGP UPDATE message carries an AS_PATHattribute – a record of the Autonomous Systems a route advertisement has traversed on its way from origin to destination. It serves two critical functions: loop prevention (a router seeing its own AS in the path discards the route) and policy (operators use AS_PATH to make routing decisions based on where traffic comes from or how it’s being forwarded.
The AS_PATH is composed of path segments, each of which is one of four types:
| Type | Description | Status |
|---|---|---|
| AS_SEQUENCE | An ordered list of ASes the route has passed through. The most common and well-understood type. | Valid |
| AS_SET | An unordered set of ASes created during route aggregation. Now deprecated. | Deprecated |
| AS_CONFED_SEQUENCE | Ordered list of Member AS Numbers within a Continue reading |
Lab: Anycast Gateways on VXLAN Segments
Most vendors “discovered” anycast gateways when they tried implementing routing between MAC-VRFs in an EVPN environment and hit all the usual tripwires (more about that later). A few exceptions (like Arista) supported them on VLAN segments for over a decade, and it was a no-brainer to extend that support to VXLAN segments.
Want to try out how that works? The Anycast Gateways on VXLAN Segments lab exercise is just what you need.
You can run the lab on your own netlab-enabled infrastructure (more details), but also within a free GitHub Codespace or even on your Apple-silicon Mac (installation, using Arista cEOS container, using VXLAN/EVPN labs).
AI Assistant for Calico: Troubleshooting at the Speed of Thought
Despite the wealth of data available, distilling a coherent narrative from a Kubernetes cluster remains a challenge for modern infrastructure teams. Even with powerful visualization tools like the Policy Board, Service Graph, and specialized dashboards, users often find themselves spending significant time piecing together context across different screens. Making good use of this data to secure a cluster or troubleshoot an issue becomes nearly impossible when it requires manually searching across multiple sources to find a single “connecting thread.”
Inevitably, security holes happen, configurations conflict causing outages, and teams scramble to find that needle-in-the-haystack cause of cluster instability. A new approach is needed to understand the complex layers of security and the interconnected relationships among numerous microservices. Observability tools need to not only organize and present data in a coherent manner but proactively help to filter and interpret it, cutting through the noise to get to the heart of an issue. As we discussed in our 2026 outlook on the rise of AI agents, this represents a fundamental shift in Kubernetes management.
Key Insight: With AI Assistant for Calico, observability takes a leap forward, providing a proactive, conversational, and context-aware intelligence layer to extract actionable insights from a Continue reading
Powering the agents: Workers AI now runs large models, starting with Kimi K2.5
We're making Cloudflare the best place for building and deploying agents. But reliable agents aren't built on prompts alone; they require a robust, coordinated infrastructure of underlying primitives.
At Cloudflare, we have been building these primitives for years: Durable Objects for state persistence, Workflows for long running tasks, and Dynamic Workers or Sandbox containers for secure execution. Powerful abstractions like the Agents SDK are designed to help you build agents on top of Cloudflare’s Developer Platform.
But these primitives only provided the execution environment. The agent still needed a model capable of powering it.
Starting today, Workers AI is officially in the big models game. We now offer frontier open-source models on our AI inference platform. We’re starting by releasing Moonshot AI’s Kimi K2.5 model on Workers AI. With a full 256k context window and support for multi-turn tool calling, vision inputs, and structured outputs, the Kimi K2.5 model is excellent for all kinds of agentic tasks. By bringing a frontier-scale model directly into the Cloudflare Developer Platform, we’re making it possible to run the entire agent lifecycle on a single, unified platform.
The heart of an agent is the AI model that powers it, and that Continue reading