You can find comprehensive information about programming courses for economists in the following article. Have you been looking for relevant information online for days? This article is the right place.
In addition to these posts, you will find ones on the following subjects.
Why are economists learning to code? Economists have always had to crunch and test data sets, but now more are using coding languages, such as R and Python, to increase efficiency so they can ultimately run more complex models.
- The appeal of big data analysis techniques is now broadening outside of data scientists.
- Economists are learning to code, helping them to benefit from the capabilities of big data software.
- Vast data sets are becoming less manageable in spreadsheets, whereas new systems can manage the task in a matter of minutes. Datastream’s DSWS web service solution has become the data source choice for many in this sector.
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Big data is permeating all of our lives and we’re seeing more end users of our products now able to code, utilizing their skills in manipulating and interrogating large quantities of data for business and market intelligence.
Tech leaders in this space are building a whole spectrum of solutions and they are not just targeted at data scientists.
Andrea Zazzarelli, technical director at Fathom Consulting, a leading independent macro research consultancy, has spotted a growing trend of economists, outside of academia, adopting and learning programming languages.
Economists have been seen as slow adopters of coding. One of the main reasons behind this is that they have not really used data on the same scale as data scientists. Zazzarelli observes this change seems to be fueled by the greater flexibility offered by these coding languages, such as breadth of functionalities, their constant development, computing speed, and interoperability across systems.
Consequently, the appeal of big data analysis is now broadening among economists.
He remembers that among the key factors behind his decision to learn R, about six years ago, were its open source nature and strong support from the coder community.
Big data analysis
Economists tend to deal with data that is both of lower frequency and has more established theoretical foundations than the high frequency levels and iterative data tests of data scientists.
But as the modern economy becomes increasingly digitized, greater computing power and novel data sources are throwing out opportunities to rethink established economic relationships. For example, Zazzarelli routinely uses clustering techniques borrowed from data scientists. He sees the rich data on online consumer spending as an area where similar techniques could disrupt the more established, but less revealing consumer surveys.
He sees the benefits from programming in R as particularly relevant in his asset allocation work. R allows his team to combine, manipulate and test economic and financial relationships more effectively under one modeling environment.
Zazzarelli also noted that coding languages are spelling the end of the monster spreadsheets and the need to crawl through them.
For example, Fathom’s Financial Vulnerability Indicator is an early warning system providing high frequency updates on country risk for over 170 countries. Data at this level is becoming less manageable in spreadsheets, a simple refresh can take hours, whereas new systems can manage the task in a matter of minutes.
It makes far more sense to learn to code and use a programming language to manipulate this kind of data.
The benefits of learning to code?
This sentiment is echoed by Charles Cara, head of quantitative strategy at Absolute Strategy Research.
Back in 2007, he was faced with the challenge of manipulating large data sets and finding technology to help him. Cara had the foresight to invest his time and energy into learning to code.
Back then, coding was often confined to the back office, but now has become a front of house profession with the rise of data scientists, and the increasing use of languages such as SQL , Python, R, JAVA, C++, C#.
He was doing research with a top down approach and he identified R as a language that could help him produce strong graphics, had a library of math functions, connected well to other tools and had a wide use of integration with other packages.
R became the programming language of his choice.
Cara is self-taught, and claims it’s like learning a spoken language and that ‘Just like any language you need to do a little bit every day’. He has been doing a bit every day for the last seven years having left investment bank Merrill Lynch to join Absolute Strategy, and has since helped them build up a leading market proposition.
They are currently servicing clients who manage in excess of US$5 trillion and the company has two employees that work on helping Cara with his data needs.
Once he has established the data mining package, he just re-runs it whenever he needs to.
A simple refresh of the complex indicators, charts, factor analysis and indices, takes a lot of the workload out, and means he can provide time sensitive data more quickly to his clients.
Accurate insights
Sourcing the right data is of course imperative or any analysis would be flawed.
Cara’s preference is Datastream’s DSWS web service solution, as it gives him the depth and breadth of accurate data required for such large data mining tasks.
This has been reflected in his data usage, with his company being one of the top users of Datastream.
When you start adding up some analysis data points of say 170 countries, across 10 years of daily data with eight variables, you can quickly arrive at over five million data points.
The biggest headache for professionals working with technology is the speed of change, as the language choice of today could be out of fashion tomorrow.
YouTube and GitHub are known sources for helping you keep on top of what is going on.
It’s also good to be part of a community to keep your knowledge current. Cara, for example, has set up his own, GIThub page, and recommends attending Meetup groups.
Time investment
If you want to remain ahead of the technology curve, yield or recruitment curve, in today’s digitized economy, learning to code would be time well spent.
You may not have ambitions to become a scientist in this area, but even developing some knowledge could prove invaluable to your working life.
The challenge now is knowing how to employ and adapt the techniques developed by data scientists for your own needs.
Coding for Economists
GRADUATE PROGRAM (& ADVANCED CERTIFICATE) STATUS
Mandatory | Master of Arts in Economics |
Elective | Doctor of Philosophy in Economics |
Course Level: Master’sCampus: ViennaCourse Open to: Students on-siteRemote studentsAcademic Year: 2020-2021Term: FallHost Unit: Department of Economics and Business
Instructor: Miklós Koren
US Credits: 2ECTS Credits: 2Course Description:
The course can be followed online if the student has a valid reason (approved by the program director) for not being able to show up for class. If classroom teaching is allowed, the student is expected to make every effort show up in the classroom.
Content. This course teaches how to organize data and code on your computer, how to write simple programs in Python to automate tasks, and how to use Stata throughout the steps of your research process.
Relevance. Quantitative research in economics and other social science requires an effective use of computational tools. The tools and methods used in this course will be applied throughout other courses and the students’ professional career.Learning Outcomes:
Key outcomes. By the end of the course, students will be able to
– Understand folder structure. Perform operations in the command line on files in different folders.
– Automate repeating tasks with Python and Stata scripts, using for loops and functions.
– Read and write data in various formats in Stata. Explore data and fix common data quality errors.
– Filter, aggregate, reshape, and combine data for analysis.
Other outcomes. The course will also help develop skills in the following areas.
Learning Area | Learning Outcome |
Critical thinking | Evaluate and compare different computing tools and methods. |
Quantitative reasoning | Use Markov processes for forecasting. |
Technology skills | Write short programs in Python and Stata.Install and use packages in Python and Stata.Use key programming tools in Python and Stata: functions, loops. |
Interpersonal communication skills | Convey technical concepts verbally.Collaborate with others on technical tasks. |
Management knowledge and skills | Create software with many components.Organize work components effectively.Meet deadlines. |
Cultural sensitivity and diversity | Work together with students of different backgrounds. |
Ethics and social responsibility | Understand ethical and legal constraints of acquiring data.Apply good practices of data protection. |
Assessment:
Grading will be based on the total score out of 100, in line with CEU’s standard grading guidelines.
– Class participation (40 percent)
– Take-home coding assignment (60 percent)
Prerequisites: none