The most innovative companies are using data as their super power - ingesting, training and simulating test cases over millions or even billions of runs and using the power of AI and ML to develop advanced wireless communication systems with the most functionality at the lowest cost. Can your desktop software keep up? Collimator can.
Collimator provides a unified environment to design, simulate, test and continuously upgrade wireless communication systems using vast amounts of synthetic and real-world data and AI to maximize the efficiency and quality of your wireless communications. Try Collimator today to:
Design cellular, Wi-Fi, LTE, BLE, satellite systems using a block diagram or Python environment
Use AI and ML tools to design your system or predict in-field performance
Analyze system performance using an integrated toolkit for wireless communication
Run millions of simulations of digital, RF and antenna designs before implementing in hardware
Call external libraries and models like GNURadio and PySDR directly within Collimator
Compare real-world operation with virtual operations in real-time, continuously
Model your advanced wireless communications systems the way that you are most comfortable using our no code block diagram environment or our Python environment
Use custom built functions to analyze signal parameters (e.g., magnitude, phase, response time, stability, linearity), filter signals (e.g., low pass & high pass filters, FIR and IIR filters), and transform signals from the time domain (e.g., fourier, wavelet, hilbert transforms)
Call functions from any open source library (e.g., GNURadio and PySDR) or run your own external code directly within Collimator
Import trained neural networks from open source AI and ML packages (e.g., Tensorflow and Pytorch) to seamlessly generate synthetic data or design, simulate and validate performance of wireless communications
Automatically run HPC simulations in parallel on the cloud with one click and without worry that system memory will be a bottleneck
Import data into Collimator, compare the real-world response to the simulated data, export data back to your data warehouse for storage or to your neural network for additional training
Collimator is Python-based, so you have access to open-source libraries like Numpy, Tensorflow, and Pytorch. Convert Python code into C automatically using our system designer software
Our software design tool’s High-Performance Compute (HPC) lets you run millions of test cases, test various scenarios, and simulate conditions difficult or expensive to reproduce in the real world
Design system software in multi-player mode, with no more miscommunications. Collimator increases output by 10x when you’re collaboratively designing various elements of a large system
We have simple, easily understood plans for users ranging from small teams to large enterprises. With our free plan, students can try Collimator at no cost
Because our software designing tool is built in Python, your users can easily import AI and ML tools like Pytorch, Thane and Keras and use them to test and perfect your system design
The more data you have, the better. Our system designer software uses data from various sources to represent situations that will inform and improve your overall system
Software systems design is the process of outlining and building the different components of a software while ensuring that data is sent and received efficiently through the software as a whole.
System design tools provide an interface for system designers to manage their systems in a standardized way. Ideal system design tools will feature intuitive component drag & drop, easy team collaboration, management of version control and seamless integration with developer tools.
There are many apps that users turn to to meet their system design needs. System Composers by Matlab/Simulink, Ansys SCADE, and Collimator are all great tools for system design across various fields.
.png){kind=small}
.png){kind=small}
.png){kind=small}
.png){kind=small}
.png){kind=small}
