<?xml version="1.0" encoding="UTF-8"?><rss version="2.0" xmlns:atom="http://www.w3.org/2005/Atom"><channel><title>TM Dev Lab</title><description>Research and Innovation Laboratory for Software Development. Dense, technical writing on software engineering, MCP, and language design.</description><link>https://www.tmdevlab.com/</link><language>en-us</language><atom:link href="https://www.tmdevlab.com/rss.xml" rel="self" type="application/rss+xml"/><item><title>Marreta Lang: A Zero-Ceremony Language for REST APIs</title><link>https://www.tmdevlab.com/marreta-lang-launch.html</link><guid isPermaLink="true">https://www.tmdevlab.com/marreta-lang-launch.html</guid><description>The launch of Marreta Lang, a focused DSL for REST APIs interpreted by a compiled native runtime. Why we built it, what the language looks like, and the developer experience it is built around.</description><pubDate>Mon, 15 Jun 2026 00:00:00 GMT</pubDate><category>Marreta Lang</category><category>REST API</category><category>DSL</category><category>Zero Ceremony</category><category>Native Runtime</category><category>Developer Experience</category><category>OpenAPI</category></item><item><title>Inside the JVM: The Engineering Behind Enterprise Performance</title><link>https://www.tmdevlab.com/jvm-engineering-enterprise-performance.html</link><guid isPermaLink="true">https://www.tmdevlab.com/jvm-engineering-enterprise-performance.html</guid><description>Enterprise systems demand predictable performance under sustained high-concurrency load, and the JVM was engineered exactly for that. This study walks through every major HotSpot subsystem to show where that robustness comes from and what it costs.</description><pubDate>Sun, 22 Mar 2026 00:00:00 GMT</pubDate><category>JVM</category><category>HotSpot</category><category>JIT Compilation</category><category>Garbage Collection</category><category>G1 GC</category><category>ZGC</category><category>Virtual Threads</category><category>OpenJDK</category><category>Java</category><category>Class Loading</category><category>Safepoints</category><category>Enterprise Performance</category></item><item><title>MCP Server Performance Benchmark v2: 15 Implementations, I/O-Bound Workloads</title><link>https://www.tmdevlab.com/mcp-server-performance-benchmark-v2.html</link><guid isPermaLink="true">https://www.tmdevlab.com/mcp-server-performance-benchmark-v2.html</guid><description>Expanded benchmark covering 15 MCP server implementations across Rust, Java (Spring Boot, WebFlux, Virtual Threads, GraalVM native), Quarkus, Micronaut, Go, Bun, Node.js, and Python. 39.9 million requests across three independent runs with I/O-bound workloads (Redis + HTTP API), 0% error rate.</description><pubDate>Sat, 28 Feb 2026 00:00:00 GMT</pubDate><category>MCP</category><category>Performance</category><category>Benchmark</category><category>Rust</category><category>Quarkus</category><category>GraalVM</category><category>Native Image</category><category>Virtual Threads</category><category>Go</category><category>Java</category><category>WebFlux</category><category>Micronaut</category><category>Bun</category><category>Node.js</category><category>Python</category><category>k6</category><category>Redis</category><category>Streamable HTTP</category></item><item><title>Multi-Language MCP Server Performance Benchmark</title><link>https://www.tmdevlab.com/mcp-server-performance-benchmark.html</link><guid isPermaLink="true">https://www.tmdevlab.com/mcp-server-performance-benchmark.html</guid><description>Comprehensive performance analysis of MCP server implementations across Java, Go, Node.js, and Python. Testing 3.9 million requests over three benchmark rounds to measure latency, throughput, resource efficiency, and production-readiness characteristics under controlled load conditions.</description><pubDate>Wed, 11 Feb 2026 00:00:00 GMT</pubDate><category>MCP</category><category>Performance</category><category>Benchmark</category><category>Java</category><category>Go</category><category>Node.js</category><category>Python</category><category>k6</category><category>Load Testing</category><category>Docker</category><category>Scalability</category></item><item><title>mcpx: MCP Gateway for Enterprise</title><link>https://www.tmdevlab.com/mcpx-gateway-incubating.html</link><guid isPermaLink="true">https://www.tmdevlab.com/mcpx-gateway-incubating.html</guid><description>A self-hosted gateway for the Model Context Protocol (MCP), enabling organizations to securely connect AI agents to MCP servers with tool governance, multi-tenant isolation, credential injection, and full observability. Built with Rust and Vue 3.</description><pubDate>Thu, 08 Jan 2026 00:00:00 GMT</pubDate><category>MCP</category><category>Gateway</category><category>Rust</category><category>Kubernetes</category><category>Observability</category><category>AI Infrastructure</category><category>Tool Governance</category></item><item><title>Production-Ready MCP #3: Zero Trust Security &amp; Governance for Agentic Systems</title><link>https://www.tmdevlab.com/mcp-zero-trust-security-governance.html</link><guid isPermaLink="true">https://www.tmdevlab.com/mcp-zero-trust-security-governance.html</guid><description>Third installment in the Production-Ready MCP series. Comprehensive analysis of Zero Trust architecture for MCP ecosystems, covering threat models, OAuth 2.1 flows, policy engines (OPA/Cedar), gateway security controls, supply chain verification, and enterprise implementation patterns for securing autonomous AI agents.</description><pubDate>Thu, 20 Nov 2025 00:00:00 GMT</pubDate><category>MCP</category><category>Zero Trust</category><category>Security</category><category>OAuth 2.1</category><category>OPA</category><category>Cedar</category><category>Supply Chain Security</category><category>Agentic AI</category><category>Enterprise Security</category></item><item><title>Production-Ready MCP #2: Gateway Architecture &amp; Federated Registries</title><link>https://www.tmdevlab.com/mcp-gateway-architecture-enterprise.html</link><guid isPermaLink="true">https://www.tmdevlab.com/mcp-gateway-architecture-enterprise.html</guid><description>Second installment in the Production-Ready MCP series. Comprehensive examination of gateway patterns for agentic systems, federated registry architectures for service discovery, distributed systems patterns (Ambassador, BFF), and comparative analysis of production implementations from Microsoft, Docker, Kong, and Cloudflare.</description><pubDate>Wed, 19 Nov 2025 00:00:00 GMT</pubDate><category>MCP</category><category>Gateway</category><category>Enterprise Architecture</category><category>OAuth</category><category>Security</category><category>Registry</category><category>Agentic AI</category><category>LLM Infrastructure</category></item><item><title>Production-Ready MCP #1: From Localhost to Production on Kubernetes</title><link>https://www.tmdevlab.com/scalable-mcp-servers-kubernetes.html</link><guid isPermaLink="true">https://www.tmdevlab.com/scalable-mcp-servers-kubernetes.html</guid><description>First post in the Production-Ready MCP series. Technical analysis of Model Context Protocol server scalability, examining the transition from SSE to Streamable HTTP and distributed session management with Redis in Kubernetes environments.</description><pubDate>Tue, 18 Nov 2025 00:00:00 GMT</pubDate><category>MCP</category><category>Kubernetes</category><category>Distributed Systems</category><category>Redis</category><category>Scalability</category><category>LLM Infrastructure</category><category>Protocol Design</category></item></channel></rss>