At the Human Brain Project Summit & Open Days in Athens, the TVB team is proudly presenting the results of the last two years of active research.

All services and resources will be made available on the new EBRAINS platform!

Freely available resources

• Online courses for using TVB

• Patient data models ready for TVB

• Clinical trial using TVB for epilepsy

• TVB cloud for treatment of neuro-degenerative diseases

HBP Collaboration spaces

• Interactive brain atlas

• Fast, parallel & HPC-ready simulation with TVB

• Multiscale co-simulation with TVB and NEST

• Connectome & TVB model construction pipeline

• TVB programming interface and GUI on EBRAINS

To access an HBP Collaboration space, you need an HBP Identity Account. If you don't have such an account, here are 3 ways to obtain one:

• Ask an account holder to invite you
• Contact your subproject manager if you're already an HBP Member
• Describe your interest briefly in a mail to support@humanbrainproject.eu

Active clinical research

At many hospitals and institutions around the world, clinicians and researchers have been using The Virtual Brain to advance knowledge and therapy for the most critical brain diseases:

• Dementia

  Identification of virtual brain model parameters reflecting cognitive impairments of MCI and AD patients to explore options for functional reversal

• Epilepsy

  Large-scale clinical trial (400 patients with drug-resistant epilepsy in 13 hospitals) to guide therapeuticstrategies and improve surgical prognosis

• Stroke

  Deducing biomarkers from virtual brain parameter changes to predict recovery in patients with stroke

• Tumors

  Individual brain modeling for patients undergoing brain tumor resection to assist pre-surgical planning and predict post-operative brain dynamics

Download TVB EBRAINS flyer (PDF, 2.2 MB)

Zenodo has gained credibility in the science world, by providing reliability, a good indexing and flexibility for the published content. Thus, we decided to use it for our tvb-data.

This is now the recommended place, from where you can download TVB compatible datasets.

Our Github Repo for tvb-data, as well as the Pypi tvb-data package are now declared deprecated, and will be cut out in the future.

On the quiet Saturday morning of January 6th, 2018, an eager scientist tapped the trackpad – unknowingly making history and quite a few people dance on tables, toasting with leftover champagne from New Year's eve: Because the 10,000th copy of The Virtual Brain was downloaded!

The story of this impressive achievement in modern neuroscience started 10 years ago, in a pub in Chicago where Viktor and Randy had more than one beer in the afterglow of an OHBM meeting – and a crazy idea: Running a scientifically useful, even individualized human brain simulator on arbitrary laptops and yet be scalable to HPC clusters.

Today, The Virtual Brain (TVB) has become an internationally acclaimed, open source neuroscience software platform, available for free on Windows, Mac and Linux. Every day, a sizable global community of active researchers are using TVB to analyze, understand and help treat diseases like Epilepsy, Stroke and Alzheimer's Disease.

TVB's user base is growing by more than 6,000 per year and the scientific groundwork has been cited in close to 100 peer-reviewed publications. Large research facilities at Charité in Berlin, AMU in Marseille and Baycrest in Toronto have constructed and simulated hundreds of individual, Connectome-based brain network models and published their findings. Well over 10 million CPU core hours went into TVB simulations, running on average MacBooks, faculty Linux servers and supercomputers like JURECA in Jülich. Starting this year, the French Epinov project will use TVB to guide surgical strategies in 10 clinics by modeling the individual brains of 400 epilepsy patients.

What enabled the success of TVB is its singular focus on delivering practical results for novel clinical applications – not in 10 years but today, on every PC and Mac. It's the only software that can generate brain imaging signals for any person, and even in animal models, reasonably fast and with scalable fidelity.

While large-scale research initiatives have been trying to simulate neurons and small brain regions at the cellular level on massively parallel hardware, they are years away from clinical applications. TVB, however, accelerates this process and reduces complexity on the micro level to attain the macro organization: A TVB model of a patient's brain generates sufficiently accurate EEG, MEG, BOLD and SEEG signals despite the complexity of a micrometer of neuronal tissue, which is reduced by a factor of a million through methods known from statistics. The key is to keep the geometry of the brain's shape and its folds precise on a millimeter level.

This smart reduction of complexity has earned TVB worldwide recognition as demonstrated by invitations to participate at neuroinformatics events such as INCF conferences, and workshops dedicated to High Performance Computing (HPC) (such as organized by NSG). TVB is used as a reference tool for use of HPC resources in the neuroscience community and directly links to other large-scale neuroinformatics efforts such as the Allen Institute’s Mouse atlas or the Human Brain Project (HBP).

TVB members disseminate their know-how, e.g. through international TVB Node workshops, by mentoring students in the Google Summer of Code program and supporting code contributors via GitHub. Also, the public at large can experience TVB technology in a playful way at the MyVirtualDream events and the upcoming Brainmodes smartphone app.

Over the past 10 years and 10,000 downloads, TVB has evolved from a few haphazard equations scribbled on a bar coaster to a revolutionary platform for computational brain modeling. During this time, the TVB team has received around $20 million in generous funding, largely carried by the James S. McDonnell Foundation.

Up to 25 people made the TVB team in some phases, working hard to realize the vision of founding scientists Viktor, Randy and Petra. Major kudos goes to Jochen and Lia who hammered out the software architecture in multiple "code jams", Michael who gave TVB a brand identity and UI, and the steady hand from Tanya steering the group through many showcases at the Society for Neuroscience and the Node workshop series.

It's been an epic journey and we're all proud to start this new year on a high note! I guess we're excused to enjoy a cold beer now – for science, you know!

Download the TVB@10000 illustration and spread the word!

Since the beginning of 2017, The Virtual Brain software is accessible as a Python App on the collaboration platform of The Human Brain Project (HBP).

Users can interact with the TVB Simulator core version 1.5 (but not our web GUI) directly in HBP Collab through iPython Notebook application.

In the TVB Collab you will find:

• a short description page of TVB
• some examples (loading a Connectivity, running various simulations, exploring BOLD, integrators, one analyzer)

Please note that accessing an HBP Collab requires a user account on their website.

We are thankful to HBP team for their support, especially to Zaninetta Stefano and Jeffrey Muller!

Members of the TVB team participated in a 3-day workshop with The Human Brain Project (HBP) near Geneva, Switzerland.

Organized by the Brocher Foundation, 33 specialists collaborated to strengthen ties between various research projects working with brain models and develop a practical strategy to work together.