Slope / Function Generator

:: electronics

In this post we’ll look at the design of a function generator that outputs slope waveforms with adjustable rise and fall times. This can be used in modular synthesis as an envelope, or control voltage to modulate some other parameter in your synthesiser. This post is purely electronics with no CPUs allowed on the scene.

For all the circuits and fragments in this post, I have linked to simulations you can play with. I was going to embed them, but there is no way to prevent all the simulations starting at once and killing your CPU, so I’ll leave it to your discretion :)

Fairylog : Multiplexer Macros

:: fairylog, fpga, digital logic, racket

Multiplexers and demultiplexers are common tools in digital logic design. In Verilog, they are fairly simple to create whilst the amount of signals are small. In this post we’ll look at how Fairylog’s macros can make short work of generating mux/demux of any complexity, greatly reducing the amount of work and scope for hard-to-find bugs


:: fpga, racket, digital logic, fairylog

Over the last few months I have been working on yet another new language, this time for programming FPGAs. This post will provide a short introduction to Fairylog by way of building some custom hardware to read a pair of Nintendo pads.

C64 Remote Programmer

:: C64, C, fsharp, raspberry pi, electronics, asi64, 6502

In this post I will describe a small electronics project designed to enable the remote programming of a real Commodore 64 that is switched on and running. To achieve this, several parts are involed, utilising some custom circuitry and communications protocol, a Raspberry Pi, a C program, a 6502 assembler program and a little F# program to finish it off.

C64 Sprite Previewer

:: C64, asi64, 6502, racket

In this post we will see how asi64 is more than your average macro assembler, by combining arbitrary disk io, functional programming techniques and code generation alongside your typical 6502 assembly code. The aim is to create a very simple sprite animation viewer, that writes the resulting C64 program by interleaving file parsing and machine code generation.

Here’s the program displaying some sprites that @silverspoon has started working on :) (in different, single colours for the fun of it)

“Fixed” Memory Pool Design

:: drey, C

This post describes a memory allocation strategy I call a “fixed” size memory pool.

Recently I decided to re-write my virtual machine Drey almost completely in the C programming language, using no external libraries except for the networking via ZeroMQ. This is mostly for fun, to see if I can remember how to program in C again and write a load of low-level stuff (apologies if my C is currently terrible!.)

Drey executes programs written in a much higher level language (typically Scurry), its purpose being to remove all low level details and provide an experience for the author focused on game logic only. As such, the virtual machine implementation must manage the memory itself, not knowing how much of what size memory it will need up front.

Since the system calls malloc/free are relatively slow and will fragment the heap, especially for lots of small object allocations, a memory management system will be required.

(actually, I could probably get away with using malloc since performance doesn’t really matter in Drey, but where’s the fun in that!)

Reversing - lcm6.exe

:: cracking, reverse engineering

As an entertaining start to the new year, this post will cover the basics of reverse engineering a program and breaking its password protection. Of course, I do not advocate software piracy in any way, and the program in question is called a crackme which is a program designed to broken, with various measures to make it harder for you. They come in different levels of difficulty, the one under the microsope today is a relatively easy one - however, breaking even the simplest program requires a fairly deep understanding of computers, and the process might be quite interesting if you don’t know how it’s done. Let’s have a look at it: