HASH was started as a research lab in NYC, studying multi-agent systems
Since the start of 2019, we’ve been developing software that helps domain experts build multi-agent simulations of complex systems. From supply chain disruption to vaccine rollouts, we’ve worked on it all.
Our simulation tools are free, permissively licensed, and available on GitHub
We’ve not yet integrated agent-based modeling capabilities into HASH. However, our legacy hCore IDE and hEngine simulation runner are freely and publicly available on GitHub. Learn more over on our developer website
How do you roll out vaccines to as many people as possible, without leaving anybody out?
Background
In 2021, with COVID-19 sweeping through the United States, Virginia’s Department of Health approached the Virginia Modeling and Simulation Center (VMASC) for strategic and policy support in modeling and optimizing the rollout of vaccines across the state. Facing urgent time pressure and a recommendation from colleagues at Boston University, VMASC looked to HASH’s first browser-based simulation IDE, hCore, to quickly spin up a custom simulation model.
Requirements
VMASC needed to develop a simulation they could trust, and fast. Existing tools were non-starters.
With HASH, the team’s researchers were able to confidently:
The team were also able to derive insights from these simulations:
Alternatives
Speed was of the essence in VMASC’s choice to use HASH. Being users of other simulation tools, the team knew that they would need something faster, more modern, and more capable if the simulation they produced was to be of any use in the real-world. It would need to be built and calibrated within hours or days, as opposed to weeks and months, and prove itself capable of turning around valuable metrics and insights in that timeframe as well. At the same time, it would need to remain fast and accurate throughout the model’s lifetime, and the team would need to be able to clearly communicate its results to a wide variety of stakeholders, with different levels of technical sophistication.
Time to insight measured in hours, not weeks
“The model informed key scenarios around vaccine distribution, such as the optimal number of vaccines for a distributor to keep on hand”
An extensible, maintainable model that survived the lifetime of the crisis
Multi-parameter optimization
Alex Nielsen & John Shull, Lead Project Scientists at VMASC, reached out to HASH and began work with researchers, analysts, and subject matter experts on a simulation model which addressed allocation, supply management, spoilage, and herd immunity impacts based on vaccine manufacturers. The “optimal” vaccine rollout had to take into account a wide variety of factors, minimizing potential negative externalities, while equitably reaching as many people as possible within the state on a need-weighted basis.
“When our customers came to us with new emerging questions, HASH made it incredibly simple to get down to work and create a model that could serve as a foundation for sharing knowledge and hooking in our data. What would normally take weeks instead only took hours.”
Alex Nielsen, Team Project Scientist, VMASC
Informing the policy response to COVID
The resulting simulation model included realistic micro-models of “distributor” agents – including pharmacies, hospitals, and clinics – administering vaccines to patients. The model informed key scenarios around vaccine distribution, such as the optimal number of vaccines for a distributor to keep on hand or the order of patients to receive vaccines.
What stood out about HASH?
A particular draw of HASH was the ease with which it facilitated collaboration with others. The browser-based nature of hCore meant that there were no special environments to configure, executables to run, or pieces of software to install required to share the model with a wider audience - things that had introduced friction into the process of sharing simulation models with policymakers before. Being able to direct-link to the simulation on the web, and embed the simulation on other webpages (through iFrames) provided a flexible way for VMASC to showcase their simulation to a wider audience.
The result was a portable, easy to use simulation that demonstrated the state of vaccine distribution in Virginia, and allowed easy experimentation with different parameters. The simulation helped to inform key decisions in vaccine distribution when it was needed most.
“What would normally take weeks instead only took hours. The simulation helped to inform key decisions in vaccine distribution when it was needed the most.”
Alex Nielsen, Team Project Scientist, VMASC
Modern agent-based simulation
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