The Development Environment for Hardware-Processed SCOPE Plug-Ins and Fast Prototyping at a Low Level enables Realisation of all your Ideas.
Self developed Plug-Ins for the SCOPE DSP Hardware
The SCOPE SDK Development Environment enables you to create your own Hardware-Processed Plug-Ins. SCOPE provides you with the Technology of world-class real digital Studio Devices and Hardware Synthesizers. The sample-based floating-point processing of the SCOPE DSP Hardware and the distinguished sound algorithms have made its authentic, lively and characterful sound an established benchmark.
A huge Libary of excellent Sound Processing Algorithms
The SDK gives you all components you need for developing sophisticated Synthesizers, Effects, Mixing and Mastering Plug-Ins. Build up your concept, design your idea and realize your device with circuit and control surface, preset library and MIDI interface. No matter what your goal might be: SCOPE provides you with the widest range of sound synthesis algorithms ever been created for a hardware-based DSP system.
Rapid Prototyping through wiring of Modules
Through the flexible routing concept, a circuit can be build up by simply wiring Algorithm Modules. So you do not need any programming skills to work with first-class signal processing components. Just use the Filters, Oscillators, LFOs, Modulators, Switches, Shapers an more modules the SCOPE SDK provides you with.
Reach your next Level by using unlimited functional range and approved powerful and transparent Sound of the SCOPE DSP Audio Platform.
The SCOPE DSP Technology has equipped several Hardware Musical Instruments and Pro Audio products, such as mixing consoles, synthesizers, effects, measurement and broadcast solutions with brilliant sound. A huge library of DSP algorithms and sound designs running on Analog Devices SHARC processors is the heart of these products.
Equipped with SHARC audio processors from Analog Devices, SCOPE DSP units deliver first class sound quality. The SHARC processor dominates the DSP market with exceptional performance and outstanding I/O throughput. Its real-time floating-point processing performs where transparency and dynamic range is key: Our algorithms at work.