20
1
Induction Variables and Loops (xania.org)
1
Going Loopy (xania.org)
3
ARM's Barrel Shifting Tricks (xania.org)
2
Make It Possible, Then Make It Normal (danielmangum.com)
2
DualShock4 Reverse Engineering (2023) (the.al)
1
Cursed circuits #2: switched capacitor lowpass (lcamtuf.substack.com)
23
Chips for the Rest of Us (nyu.edu)
1
CEO Interview with Brandon Lucia of Efficient Computer (semiwiki.com)
190
Why xor eax, eax? (xania.org)
1
Make It Possible, Then Make It Normal (danielmangum.com)
3
Make It Possible, Then Make It Normal (danielmangum.com)
1
Pocket PSU: variable current and voltage PSU using PPS (github.com/pocketconcepts)
3
Datum (datum.net)
1
Internet Superpowers for Every Builder (datum.net)
2
Secure-by-design firmware development with Wasefire (googleblog.com)
2
Wasefire: Secure firmware framework focusing on developer experience (github.com/google)
2
Make It Possible, Then Make It Normal (danielmangum.com)
1
Advent of Compiler Optimisations 2025 (xania.org)
1
Make It Possible, Then Make It Normal (danielmangum.com)
2
Advent of Compiler Optimisations 2025 (xania.org)
1
Make It Possible, Then Make It Normal (danielmangum.com)
4
Building Zephyr for the Raspberry Pi Pico2 W (golioth.io)
1
Signy: Signed URLs for Embedded Devices (github.com/golioth)
2
Make It Possible, Then Make It Normal (danielmangum.com)
1
A 2025 look at real-world Kubernetes version adoption (datadoghq.com)
35
Interesting SPI Routing with iCE40 FPGAs (danielmangum.com)
1
Make It Possible, Then Make It Normal (danielmangum.com)
1
Interesting SPI Routing with iCE40 FPGAs (danielmangum.com)
1
Interesting SPI Routing with iCE40 FPGAs (danielmangum.com)
1
Interesting SPI Routing with iCE40 FPGAs (danielmangum.com)
1
Creating a New Embedded Rust Projects for NXP LPC55S69 (mcuoneclipse.com)
1
Which Chip Is Best? (confident.security)
3
1M Business Customers (openai.com)
1
Cloud Native Computing Foundation Announces Graduation of Crossplane (cncf.io)
1
Crossplane's CNCF Graduation (crossplane.io)
1
Signed URLs on ESP32 (golioth.io)
2
Signed URLs on ESP32 (golioth.io)
1
Signy v0.2.0: Signed URLs on ESP32 (github.com/golioth)
2
Signed URLs on ESP32 (golioth.io)
1
The Evolution of GPUs: How Floating-Point Changed Computing (dell.com)
2
Arduino UNO Q 3-D Printed Case (makerworld.com)
1
Beginners Guide to Building a Hardware Hacking Lab (voidstarsec.com)
1
Intel in Talks to Acquire AI Chip Startup Sambanova (bloomberg.com)
1
Mushrooms show promise as memory chips for future computers (phys.org)
5
Nike Project Amplify (nike.com)
3
μLA: Micro Logic Analyzer for RP2040 (github.com/dotcypress)
141
Rivian's TM-B electric bike (theverge.com)
6
Rivian's $4,500 electric bike gamble (theverge.com)
2
RJ Scaringe and Chris Yu Introduce the TM-B (youtube.com)
3
Introducing the TM-B (ridealso.com)
4
RMPocalypse: Breaking AMD Confidential Computing with a Single Write (rmpocalypse.github.io)
160
Wireguard FPGA (github.com/chili-chips-ba)
2
Why do CPUs have multiple cache levels? (fgiesen.wordpress.com)
8
Patina: a Rust implementation of UEFI firmware (github.com/opendevicepartnership)
1
KEP-4671: Gang Scheduling (github.com/kubernetes)
53
Using a laptop as an HDMI monitor for an SBC (danielmangum.com)
2
Bypassing Restricted Shell on Uniview Security Camera (brownfinesecurity.com)
1
How to Try Chrome's Hidden AI Model (petewarden.com)
1
FPGA Security Features (controlpaths.com)
1
Boundary Scan in AMD FPGAs (adiuvoengineering.com)
1
Signy: Signed URLs for Embedded Devices (github.com/golioth)
1
Signy: Signed URLs for Embedded Devices (github.com/golioth)
1
Signy: Signed URLs for Embedded Devices (github.com/golioth)
1
Signy: Signed URLs for Embedded Devices (github.com/golioth)
1
Signy: Signed URLs for Small Devices (github.com/golioth)
1
Signed URLs for Embedded Devices (golioth.io)
2
Signy: Signed URLs for Small Devices (github.com/golioth)
2
Signed URLs for Embedded Devices (golioth.io)
3
Signy: Signed URLs for Small Devices (github.com/golioth)
2
Securing the AI Revolution: Introducing Cloudflare MCP Server Portals (cloudflare.com)
4
Pouch: A non-IP protocol for communication between devices and cloud services (github.com/golioth)
4
Gateway-Based Positioning (golioth.io)
3
Gateway-Based Positioning (golioth.io)
5
Startup Claims Up to 100x Better Embedded Computing Efficiency (ieee.org)
1
How AI on Microcontrollers Actually Works: Registering Operators (danielmangum.com)
1
How AI on Microcontrollers Actually Works: Registering Operators (danielmangum.com)
2
Why is it so hard for startups to compete with Cadence? (zach.be)
1
How AI on Microcontrollers Actually Works: Registering Operators (danielmangum.com)
1
How AI on Microcontrollers Actually Works: Registering Operators (danielmangum.com)
1
Asymmetry of Verification and Verifier's Law (jasonwei.net)
2
How AI on Microcontrollers Actually Works: Registering Operators (danielmangum.com)
1
How AI on Microcontrollers Actually Works: Registering Operators (danielmangum.com)
1
GPUHammer: Rowhammer Attacks on GPU Memories Are Practical (gpuhammer.com)
1
How AI on Microcontrollers Actually Works: The Computation Graph (danielmangum.com)
1
How AI on Microcontrollers Actually Works: The Computation Graph (danielmangum.com)
1
How AI on Microcontrollers Actually Works: The Computation Graph (danielmangum.com)
2
How AI on Microcontrollers Actually Works: The Computation Graph (danielmangum.com)
3
Rivian spinoff Also raises another $200M (techcrunch.com)
1
How AI on Microcontrollers Actually Works: The Computation Graph (danielmangum.com)
1
How AI on Microcontrollers Actually Works: The Computation Graph (danielmangum.com)
1
GlobalFoundries to Acquire MIPS (gf.com)
1
How AI on Microcontrollers Actually Works: The Computation Graph (danielmangum.com)
21
tinymcp: Let LLMs control embedded devices via the Model Context Protocol (github.com/golioth)
1
Ambiq Files S-1 (ambiq.com)
2
How AI on Microcontrollers Actually Works: The Computation Graph (danielmangum.com)
15
Berry Script: lightweight embedded scripting language for microcontrollers (berry-lang.github.io)
29
Parallelizing SHA256 Calculation on FPGA (controlpaths.com)
4
tinymcp: Let LLMs control embedded devices via the Model Context Protocol (github.com/golioth)
4