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Learn from Fellows working at cutting-edge companies across the United States.
The US consists of a diverse population where people are becoming more aware of the need for diversity, inclusion, and mental health proficiency across the job market. In this project, you will learn to identify, explain, and distinguish mental-health-informed leadership qualities that will be effective in nowadays workplace environments. You will present a report of case study analysis, where you get to utilize and apply the skills that you have learned in the previous weeks. The case study will be displaying trauma-informed and culturally proficient leadership skill.
Under the supervision of an experienced industry expert, you will develop skills that will showcase the ability to navigate interpersonal interactions through the lens of mental-health awareness. You will be equipped for challenges outside your own context of culture or identity development to provide a positive and effective work environment.
Critical Path Method (CPM) Scheduling is of immense importance today in the construction field and drives most construction planning and project controls processes. In this Build Project, you'll wear the hat of a Construction CPM scheduler/project controls professional. Schedulers and Project Controls professionals manage and monitor cost, schedule and risk on construction projects.
You will build a basic model construction CPM schedule for a typical highway or heavy civil construction project. Under the supervision of an experienced industry expert, you'll become familiar with the industry standard CPM scheduling methodology. All this will happen in an environment that simulates the operations of a real Project Controls or Scheduling team.
The need of the hour is to transition over to clean renewable energy for our electricity demand. With the climate change moving to an irreversible tipping point, both state and federal governments along with international authorities have introduced policies (administrative and monetary) to support the building and operations of renewable energy power plants. This opens many entry-level opportunities for firms that build, own, and operate these plants and are in constant need of engineers to support their mission and vision.
In this Build Project, you’ll wear the hat of an electrical engineer and develop and present a utility scale power plant project proposal. Under the supervision of an experienced industry expert, you’ll run simulations on the project’s electrical output, showcasing the project’s electrical power and energy calculations, and would also provide cost and financing models. You’ll become familiar with industry tools like PVSyst, PVWatts, and Microsoft Excel, for project cost and finance. All this will happen in an environment that simulates the operations of a real electrical engineering project development team.
RNA-seq has been selected as one of the most reliable assays in biotech research for studying gene expression level. In fact, this assay has emerged as a widely used technique for quantifying all gene expression levels. In this Build Project, you’ll imagine you assume the role of a research associate for a well-known company. They have decided to assign you the task of on boarding this assay with the purpose of investigating gene expression levels within the context of assessing the genetic tool your company has developed as part of curing genetic disorders. You will be exposed to common therapeutic approaches being conducted at molecular level and will dive deeper into different next generation sequencing technologies. These experiences represent the daily task of a research associate in the biotech industry and will be a good learning curve as part of your career development.
Innovation is powered by funding yet the relationship between startup founders and investors is often marked by misaligned incentives and conflicting interests. Receiving funding from reputable Venture Capital (VC) firms is a strong positive signal of success for any entrepreneur, yet many founders could benefit from gaining a deeper understanding of what institutional VC investors look for when identifying their next big investment opportunity.
In this Build Project, you will put yourself in the position of a private institutional investor and analyze the performance factors of a successful venture portfolio, practice negotiating a term sheet, and develop an investment memo pitching a compelling startup investment opportunity to an Investment Committee. With the guidance of a professional with private institutional investing experience, you will calculate a venture portfolio’s performance metrics and practice identifying and pitching startup investments. You will master the fundamentals of key startup valuation metrics and portfolio management basics such as calculating pre-/post-money valuations, portfolio performance metrics, and others. This project will stimulate the operations of a venture capital firm and provide holistic insights into the skills both venture investors and founders need for success in the competitive venture ecosystem.
Cell therapy refers to the transplantation of autologous or allogeneic cells into patients to treat diseases or repair damaged tissues. However, the gap between research-scale proof of concept and clinical patient doses is significant and multifaceted. This build project aims to explore key aspects of bridging the gap between R&D and clinical application in stem cell therapy, focusing on scalable/automated cell differentiation process development and cell-based analytical techniques.
You will delve into various types of bioreactors and close-system cell processing instruments, get exposed to different analytical techniques for cell phenotyping and drug efficacy assessment, and conduct an experimental proposal using the design of experiment (DoE) concept. The project will also introduce the drug commercialization process from the perspective of CMC (chemistry, manufacturing, controls) team. You will draft master batch records and raw material risk assessments, documents required for ensuring the drug consistent productivity and quality. This comprehensive project will equip you with practical skills in designing and scaling-up cell differentiation processes, applying advanced cell-based analytical techniques, and preparing documents related to therapeutics safety and regulatory compliance.
By the end of the project, you will develop a PowerPoint presentation that provides an overview of key qualitative and quantitative parameters of a medical device as well as be able to explain these parameters in a way that adds business value and gives a company’s executive team strategic direction regarding a class of products in the reconstruction and aesthetic space. You will also develop skills to present these findings in visually concise and appealing way with the use of plots and graphics. All these skills are critical to any budding entrepreneur or new product development engineer!
In this Finance Modeling Project, you'll step into the shoes of a Quantitative Analyst and construct a Treasury Yield Curve from scratch. Under the supervision of an experienced industry expert, you'll analyze market data and implement a mathematical model in Python to estimate term structures of interest rates. You'll become familiar with industry tools and methodologies for data manipulation and bootstrapping techniques for yield curve construction. All this will provide invaluable hands-on experience crucial for entry-level roles in finance, where proficiency in quantitative modeling and data analysis is highly valued.
The complexity of material usage represents a big challenge in architectural and engineering design and the overcoming of that challenge is a great advantage for those who achieve it. In this Build Project you will go through the process of Shop Drawings creation for the ACM scope of work and learn how the panels are sketched. Under the supervision of an experienced industry expert, you will be able to draw details for specific conditions of the building, recommend the solutions for better material usage and choose which systems are the best for the specific design. Your Project Leader will provide you with insight into panel fabrication process while giving you the concrete knowledge applicable in this always evolving industry. This will happen in an environment that stimulates the operations of a real team that creates Shop Drawings.
Under the tangled global impacts from all directions, the turbulence of the current financial market makes it hard to predict and invest. At this moment, studying tail risk (known as the extreme loss from an asset or portfolio and represented at the left tail of the return distribution) and designing tail hedge strategies has become more critical to protect against severe market distress. In this project, you'll wear the hat of Financial Engineer and study tail hedge strategies as potential investment models for controlling significant drawdown risks. Under the supervision of an experienced Build Fellow, you'll construct, implement and measure the performance of tail hedge strategies empirically using more than 15 years of index and option data. You'll also formulate your own opinion on the strategies’ behavior for the future potential market move and provide cost-effective recommendations for clients. You will use Pandas, Numpy and Matplotlib Python libraries to analyze strategies and build your own functions on selecting, exiting and entering option positions.
Knowing how to conduct a market research is a very valuable skill for anyone who plans to work in the business industry, no matter what role you want to play. In this Build Project, you'll wear the hat of a Market Research Analyst and provide recommendations on how Fizz can enter the Online Marketplace app space specifically for Gen Z users. Under the supervision of an experienced Build Fellow, you'll collect primary data using market research surveys and focus groups to understand the needs and wants of the customer base. You'll use secondary data like market reports from Statista to evaluate the importance of the trends emerged through the survey analysis. You'll become familiar with data collection, data analysis and trend spotting – and how these tasks can be performed in tools like Excel and Tableau. All this will happen in an environment that simulates the operations of a real Market Research and Analysis team.
This project aims to explore key aspects of gene editing and gene therapy, focusing on current techniques, historical evolution, and the associated challenges. You will delve into the mechanisms and applications of gene editing technologies, understand how they have evolved from early experiments to sophisticated tools used in modern biotechnology and medicine. Utilizing bioinformatics tools, you will conduct an analysis to understand disease modalities, interpreting genomic data to identify and characterize structural variants, and assessing their potential impact on gene function and disease progression.
The project will also investigate genomic instability and off-target effects that can arise from gene editing, emphasizing their implications for therapeutic safety and efficacy. Additionally, you will explore the role of bioinformatics as a powerful tool for deciphering disease modalities, leveraging computational approaches to analyze genomic data and understand disease mechanisms at a molecular level.
Through this comprehensive exploration, this Build Project seeks to equip you with a deep understanding of the complexities and potentials of gene editing technologies in healthcare and biotechnology. You will produce a report about the evolution and current state of gene editing techniques, including a historical overview of gene therapy. It will also cover the mechanisms of genomic instability and off-target effects resulting from gene editing, providing insights into their implications for therapeutic safety and efficacy.
With the US economy and population now being dominated by baby boomers (the demographic cohort born during the mid-40s and mid-60s), we face a significantly high number of individuals retiring from the workforce. In addition, we are in the middle of the biggest wealth transfer in the history of the U.S. This presents a great opportunity for individuals with skills to offer financial and investment advice.
In this Build Project, you'll wear the hat of a Financial and Investment Research Analyst. You will showcase the ability to evaluate the current makeup of the investment portfolio using the profitability/valuation ratios and risk metrics to develop and design an investment strategy to align the portfolio to the current business and economic cycle. Under the supervision of an experienced industry expert, you'll compute the various investment ratios and statistical measurements used in portfolio construction and analysis. Also, you will evaluate the stock's common types of performance measurements and intrinsic value and explain how portfolio risk is used to develop efficient frontier/portfolios. You'll become familiar with industry tools/techniques/methodologies like Modern Portfolio Theory, Capital Asset Pricing Model, Ratio Analysis, and Efficient Market Hypothesis Concepts. All this will happen in an environment that simulates the operations of a real Financial and Investment Research Analyst.
To stay relevant and profitable, companies need to constantly review their growth strategy and identify new market opportunities. Specialists who can do this work effectively are always in demand, so it's a valuable skillset to acquire. In this Build Project, you'll wear the hat of a Corporate Development Analyst and come up with a potential acquisition target (company) to analyze and present. Under the supervision of an experienced Build Fellow, you'll perform market research, financial analysis and build a dynamic valuation model in Excel. You'll become familiar with valuation methodologies like DCF, NPV and WACC. All this will happen in an environment that simulates the operations of a real Corporate Development team.
Allogenic hematopoietic stem cell transplant (HSCT) is the only cure for patients with blood, bone marrow and immune disorders. Understanding the underlying molecular biology behind HSC function, expansion, and differentiation is critical to improve cellular therapies for multiple diseases. In this Build Project, you will wear the hat of a Molecular Research Associate to perform RNA sequencing analysis and then identify relevant pathways and genes of interest in HSC functions. All this will happen in an environment that simulates the operations of a real Research team.
By the end of the 8-week project, students will develop deliverables for this project are focused on building artifacts that you can use to showcase your work in a job application. By the end of the micro-internship, you'll review an RNAseq gene pathway from human hematopoietic stem cells, perform a comparative analysis between multiple conditions, and develop gene knockout and genotyping designs. In the final project session, you'll present your results to the Project Leader in a format that mimics a job interview (so you’re ready to discuss your work in real-life interviews).
If you want to work in Commercial Real Estate, it’s beneficial for your portfolio to acquire some industry-specific experiences. In this Build Project, you'll wear the hat of an Asset Management Analyst and monitor the financial performance of an office asset within a commercial real estate portfolio in Los Angeles. The investment committee that approved the acquisition of said asset has requested a meeting to provide them with an update on market and asset performance a year into acquisition. Under the supervision of an experienced Build Fellow, you'll work on valuation and investment metrics, returns, variances in financial statements, and market fundamentals. You'll also become familiar with industry tools such as Excel, PowerPoint, Costar, and Cushman & Wakefield. All this will happen in an environment that simulates the operations of a real CRE (Commercial Real Estate) Asset Management team.
In most organizations, data is stored in hundreds or thousands of columns stored in multiple tables. With this level of complexity, it's often hard to understand the relation between tables, columns, views, and workflows. In this Build Project, you'll build a library that takes in a complicated data schema, analyzes all the existing relations, and provide a flow chart as an output to easily understand all the relations and how data flows in the system. All these skills are essential for the productive work of any specialist analyzing large datasets, and in this project, you have a chance to develop them under supervision of an experienced Project Leader.
To analyze urban patterns effectively, city planners collect extensive datasets that encompass a wide range of information, such as accidents, collisions, rule violations, congestion, and more. Understanding and interpreting these datasets is crucial for informed urban planning and development. Visualization plays a pivotal role in this process, serving as a powerful tool to capture trends, narrate stories, and identify the underlying causes of urban issues. It also aids in devising effective solutions to mitigate these problems.
In this Build Project, you will take on the role of an Urban Planner, focusing on visualizing city public datasets. Under the guidance of an experienced Build Fellow, you will develop a cutting-edge application using WebGL technology. This application will analyze publicly available urban data, process it, and present it in a user-friendly format. The goal is to create a tool that not only helps city planners and officials understand urban patterns and issues but also engages and informs the public. Your work will contribute to making data-driven decisions for improving urban mobility and enhancing the overall quality of life in the city.
Immunofluorescence is a widely used tool in the visualization of protein and biomolecules within fixed cultured cells (immunocytochemistry) or preserved and sectioned patient or animal tissue (immunohistochemistry). Fluorescent immunostaining is a reliable confirmation technique used across scientific disciplines both in academia and industry. However, without extremely expensive and proprietary software, analysis and interpretation of this data can be complicated and time-consuming. In this Build Project, you'll wear the hat of a scientist or engineer and build a pipeline capable of delivering high-throughput single cell data from immunofluorescent images. Under the supervision of an experienced Build Fellow, you'll design a segmentation workflow and analyze data. You'll become familiar with industry tools like Cell Profiler and ImageJ. All this will happen in an environment that simulates the operations of a real biotech team.
Applying principles of Business, Finance, and Management, in this Build Project you will gather and analyze macroeconomic data, perform competition analysis, use financial modeling to project scenarios, and support strategic decisions for a high-tech software development company offering a game-changing technology in multiple markets ranging from banking, telecom, online services, and pharma. This will be an opportunity for students to experience contributing to a real-world project involving AI, Biometrics, and data privacy.
Lightweighting is strategically decreasing mass while preserving overall strength and structural integrity. Additive manufacturing has created opportunities to apply new lightweighting techniques that enable you to achieve even greater mass reduction.
In today's rapidly evolving engineering landscape, additive manufacturing (AM) stands at the forefront of innovation, offering unparalleled opportunities for maximizing performance and efficiency while minimizing lead times. Companies across industries are embracing AM to push the boundaries of traditional manufacturing methods and unlock new possibilities in design optimization.
In our Build Project, you will learn the power of computational design and AM technologies to lightweight mechanical parts, mirroring the innovative approaches in real-world industry applications. Through this project, you will gain invaluable skills in computational design, material selection, and additive manufacturing, positioning them for success in the dynamic landscape of modern engineering and manufacturing roles.
In biotech industry, bioreactors are essential for producing various products like pharmaceuticals, enzymes, biochemicals, and more through biological processes such as fermentation. An automated control system optimizes and regulates critical parameters (temperature, pH, agitation, aeration, etc.), that are necessary for the growth and productivity of microorganisms within the bioreactor. In this Build Project, you'll wear the hat of Process Development Engineer and design an automated control system for a bioreactor. Under the supervision of an experienced Build Fellow, you'll learn how to create a ladder logic program to monitor and control various parameters for optimal growth conditions inside a bioreactor. All this will happen in an environment that simulates the operations of a real DSP team.
Mass-produced products are often designed to be manufactured quickly and in a cost-effective process. The traditional design of a product leads to tradeoffs in quality, safety, and reliability. In this Build Project, students will redesign 3 popular consumer products using basic and advanced engineering design principles. Students will identify problems and use TRIZ, Morphological charts, Biomimicry, data driven methods, etc. to modify the existing product.
Students will also perform DFMEA, PFMEA and follow standard industry guidelines to reach an economically feasible solution. During this project, you will learn engineering failure modes, causes and effects, perform Root cause analysis, prepare fishbone charts and use basic cost analysis for all consumer products. The tools used during this project are a staple of the manufacturing industry and will provide a great boost to students when they are showcased while working on a project.
