Category: Research

The world’s waters are largely unknown, with vast areas still unmapped. To protect and preserve the oceans, we need to extensively understand its systems, and data is at the core of that process. The Amazon Sustainability Data Initiative (ASDI) is committed to enabling better access to the foundational data that can help researchers, businesses, and policy-makers better monitor and manage the ocean’s valuable resources.

Computational biology is undergoing a revolution. However, the analysis of single cells is a hard problem to solve. Standard statistical techniques used in genomic analysis fail to capture the complexity present in single-cell datasets. Open Problems in Single-Cell Analysis is a community-driven effort using AWS to drive the development of novel methods that leverage the power of single-cell data.

OCEARCH is a data-centric organization built to help scientists collect previously unattainable data about the ocean. Their mission is to accelerate the ocean’s return to balance and abundance, through innovation in scientific research, education, outreach, and policy, using unique collaborations of individuals and organizations in the US and abroad. As part of the Amazon Sustainability Data Initiative (ASDI), we invited Fernanda Ubatuba, president and COO at OCEARCH, to share how her organization is making strides in helping ocean conservation and how AWS is supporting her mission.

The Urban Analytics Lab at the National University of Singapore (NUS) spearheads research in geospatial data analysis and 3D city modelling. The lab’s work underpins the development of smart cities and provides scientists, architects, urban planners, and real estate developers with data insights. These insights help parties make informed decisions about projects ranging from energy modelling to urban farming. To meet rising global demand for its data analytics and planning tools, Urban Analytics Lab turned to Amazon Web Services (AWS).

In Europe, government agencies and policy makers see the value in using new technology to unlock digital transformation and deliver better, more innovative citizen services. Using data for statistics initiatives, including open data, can help researchers produce innovative products and tools, including visualisation, to inform government officials ahead of making policy decisions that impact their citizens. When it comes to big data, policy makers need to collaborate with researchers to address issues and challenges in using these new data sources. To work toward this goal, Eurostat, the statistical office of the EU, hosted its bi-annual European Big Data Hackathon.

One of the biggest scientific achievements of the twenty-first century was the completion of the Human Genome Project and the publication of a draft human genome. The project took over 13 years to complete and remains one of the largest private-public international collaborations ever. Advances since in sequencing technologies, computational hardware, and novel algorithms reduced the time it takes to produce a human genome assembly to only a few days, at a fraction of the cost. This made using the human genome draft for precision and personalized medicine more achievable. In this blog, we demonstrate how to do a genome assembly in the cloud in a cost-efficient manner using ARM-based AWS Graviton2 instances.

In the spring of 2019, environmental modelers at the Lake Michigan Air Directors Consortium (LADCO) had a new problem to solve. Emerging research on air pollution along the shores of the Great Lakes in the United States showed that to properly simulate the pollution episodes in the region we needed to apply our models at a finer spatial granularity than the computational capacity of our in-house HPC cluster could handle. The LADCO modelers turned to AWS ParallelCluster to access the HPC resources needed to do this modeling faster and scale for our member states.

RONIN is an AWS Partner solution that empowers researchers with a simple interface to create and control computing resources, set and monitor budgets, and forecast spend. RONIN is designed and architected to advance research institutions’ missions, by providing a research platform that manages the most common research use cases, and is also compatible with advanced cloud computing services from AWS. Learn what powers RONIN underneath the user-friendly interface.

If you share data with other researchers, especially if they are using a different tool, you can quickly run into version issues, not knowing which file is the most current. Rather than sending data files everywhere, AWS offers a simple way to store your data in one central location so that you can read your data into SAS and still share it with other colleagues. In this blog post, I will explain how to export your data, store it in AWS, and query the data using SAS.

To allow more visibility into and management of AWS resources and expenses and minimize the cloud skills training required to operate these resources, AWS Partner RONIN created the RONIN research computing platform. RONIN gives researchers the ability to create exactly the computers or storage that they need in minutes. With access to the flexibility and scalability of the cloud, researchers are able to store and process larger datasets, collaborate globally, and adapt to changing technologies and research methods instantly.