Researchers at Australian start-up Cortical Labs have taught human neurons grown on a chip to play the classic Doom game. In 2021, they had already used 800,000 neurons to play Pong. Now, with four ...

Explore the power of interactive physics visualizations with animated graphs using VPython and GlowScript for dynamic simulations! This guide demonstrates how to create real-time animated graphs that ...

Simple toys that one can make with a 3D printer include a card-sized crossbow, a stacking puzzle game, and a one-piece glider ...

Researchers at a Melbourne start-up have taught their “biological computer” made from living human brain cells to play Doom.

Stefan Panourgias, the Managing Director of Composite Consult, delves into the common types of claims in the construction ...

The latest version of Foundry's compositing software brings native support for Gaussian Splats, and takes Nuke's new 3D system out of beta ...

The demoscene is still alive and well, and the proof is in this truly awe-inspiring game demo by [daivuk] : a Quake-like “boomer shooter” squeezed into a Windows executable of only 64 ...

Nano Banana 2 creates start and end images with Cling 3.0 video in between, a two-frame workflow for 3D scroll effects.

In a wild experiment, it turns out a few human neurons linked up to some custom silicon can actually play Doom.

Inspired by the Japanese art of kirigami, an MIT team has designed a technique that could transform flat panels into medical devices, habitats, and other objects without the use of tools.

Brice Laville Saint-Martin and his cofounders at Antihero Studios left their jobs at big studios. Now, they're building their dream game.

The FORGE method is a 5-step Claude framework that takes any rough idea from messy to complete — and keeps you in control of ...