OmVisim
Simulation just became reality.
OmVisim allows biologists, programmers, and anyone in between
to perform high-definition, interactive, real-time biological simulations
that accurately replicate their physical laboratory counterparts.
We're applying modular, high-level virtualization techniques to
break boundaries in expensive simulation of large-scale environments.
Video goes here.
Code.
Program complex, large-scale biosystems in a dedicated feature-rich integrated development environment (IDE) designed for L++, the first high-level language for systems biology.
Confidently run your program with custom debugging tools, such as analyzing and viewing molecular structures on the fly when hovering over any supported chemical synonym or formula.
The all-in-one IDE enables you to directly code, execute, simulate, and debug systems in one application.
Simulate.
Explore your programmed system in an open world, entering a perspective of detail and freedom never seen before.
Roam around environments containing thousands of interacting molecules. Step in and out of cells and organisms to your desired level of detail, choosing the scope to analyze your research experiment. We're abstracting the behavior of systems, but that doesn't mean we have to hide any microscopic details.
Enable and disable molecules to your liking so you can eliminate irrelevant noise. There's no structure to how you tour your creation.
Debug and Analyze.
Quantitatively analyze automatically generated graphs and plots fitting the nature of your simulation to prove your hypotheses.
Declare and generate your own graphs before experimentation tailored to what you're looking for.
These features are designed to help you debug your system, enabling you to change parameters and experimental steps and rerun your simulation without wasting physical resources.
Easily annotate, export, and share plots for simple communication and presentation. You've done the hard work. Let us make the rest a piece of cake.
It's magic. It's just science.
Biology meets
programming.
Biology and computer science are often perceived at separate poles of the natural sciences. We're here to debunk that.
A cell and a computer have more overlap than meets the eye. Yes, one's microscopic and naturally occurring while the other was developed by us just a century ago, but they're merely elegantly, perfectly designed hierarchical systems facilitating algorithmic behavior not only within themselves, but with each other by sending and receiving signals through abstracted interfaces.
We can draw parallels at every level of abstraction between a living being and a computer, from the genomic DNA sequence to an entire organism. We've never invented a simplified mechanism of describing life as we know it. We thought - let's reverse engineer that.
Low level
Binary Code is a sequence of 0s and 1s representing program code. DNA is a sequence of A, G, C, and T representing the code of life. It's what everything is made of.
Mid level
Pathways describe a series of rules dictating the relationships and concentrations between molecules. Algorithms are processes encompassing a set of rules that do the same between variables and data.
High Level
Organisms are made of cells, which are individual systems containing further abstractions, all of which communicate via pathways to function. A computer is composed of hundreds of separate components, communicating with one another through algorithms to work.
Modularizing Control Theory.
Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Congue quisque egestas diam in arcu. Erat pellentesque adipiscing commodo elit at imperdiet dui accumsan. Vel facilisis volutpat est velit egestas dui id ornare. Id consectetur purus ut faucibus pulvinar elementum integer enim neque.
Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Congue quisque egestas diam in arcu. Erat pellentesque adipiscing commodo elit at imperdiet dui accumsan. Vel facilisis volutpat est velit egestas dui id ornare. Id consectetur purus ut faucibus pulvinar elementum integer enim neque.
Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Congue quisque egestas diam in arcu. Erat pellentesque adipiscing commodo elit at imperdiet dui accumsan. Vel facilisis volutpat est velit egestas dui id ornare. Id consectetur purus ut faucibus pulvinar elementum integer enim neque.
L++
Currently existing programming languages are limited in describing biosystems at a large scale. These markup languages for computational biomodeling are often designed to describe biochemical processes at a pathway level, and contain cryptic, human-unreadable, un-modular code.
L++ is a new high-level, biology-oriented, typeless programming language. It's designed to abstract away microscopic interactions at a programmer’s level, allowing scientists to clearly and concisely describe biosystems and molecular relationships while providing remarkable insight into intricate simulations when necessary. Familiar, easy-to-read syntax with dedicated molecular structure abstractions accurately represent a system's states and all of its moving parts from a modular perspective to maximize code reuse.
// Some SBML Code
console.log( 'Code is Poetry' );
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
//
/
/
/
Example Name
Systems Biology Markup Language
console.log( 'Code is Poetry' );
/
/
/
/
/
/
/
/
/
Example Name
L++
A universal tool to unite everyone.
Education
Curiosity is enabled by the freedom to learn. Freedom to explore molecular systems in an open world allows students to better understand biochemical processes at every level and perspective.
Drug Development
The current pharmaceutical pipeline requires years of researching an testing and billions of dollars to release a new drug. Limitless testing of newly proposed solutions in OmVisim's simulation systems can verify and locate effective high potential drugs candidates.
Personal Health
Your health matters. By simulating your well-being, OmVisim can suggest personalized activity and diet tips to help you feel your best, all in the palm of your hands.
Cancer Research
Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua.
Climate Change
Earth is a biosystem in itself. Our simulation system aims to handle large replica environments to test solutions tackling environmental pollution.