I would also recommend getting one that is tactically appealing to you. Know that whatever you want to control within your software there is going to be a controller on the market with all the knobs, buttons, and sliders you’ll need. Similarly, if you need to control the SP-6 you may opt for a controller with at least six knobs that will control the volume of the samples and six buttons that will trigger them. For example, if you want to control the internal software effects in Scratch Live it would be a good idea to get a controller with at least six knobs to control the amount of the effect and six buttons to trigger the on/off parameter of each effect. When purchasing a MIDI controller, I think it’s best to figure out what you want to control in the program you are using first. If you’ve already done some research you would know there are a ton of different MIDI controllers on the market and they all basically do the same thing: Control your software. Using a MIDI controller to control these effects, in my opinion, is much more efficient. There are some features in Scratch Live that don’t have keyboard commands, such as controlling the internal software effects. It can also give you a much better tactile experience than pressing a button on your keyboard or moving your finger across a track pad. Depending on the footprint of the controller it can sit close to your existing gear and give you quick access to all the functions you use without the need to touch or even look at your computer. This is when a MIDI controller comes in handy. Most MIDI mappable software parameters can still be controlled via keyboard commands, but using the keyboard isn’t always the fastest and/or most convenient method. You definitely don’t need one to control the main parameters of your software, but using one can make life a little easier depending on how you perform. MIDI is also used to coincide LED lights on a controller with what is going on in software. When using Scratch Live these messages can tell the program when to trigger a cue point, loop, or sample, for example. MIDI transfers event messages that tell the program or hardware device you are using specific information such as volume, pitch, velocity, etc. ![]() MIDI stands for Musical Instrument Digital Interface and, without getting too technical, is a protocol that allows a hardware controller to communicate with other hardware controllers or with your computer. This article is intended to give you the bare bones information you need to get up and running with your ideal MIDI controller and take your performance to the next level. ![]() Fortunately you don’t have to be an audio engineer or rocket scientist to control your software with a MIDI controller these days. The acronym, MIDI, can be a daunting one to wrap your head around and diving into the world of MIDI can be overwhelming.
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