Tectonic Shifts: How do we get girls more involved in technology?


Our new series of articles by Palisadoes participants


Shannika Jackson

Developments in Science, Technology, Engineering and Mathematics (STEM) impact us all. Even more so with the digitization of everyday life. There have been interesting trends with gender representation in the tech industry. These include a marked under-representation of women in enrollment, matriculation, and employment in IT and STEM related disciplines. This under-representation of women continues in STEM related careers and leadership roles in these areas. ‘STEM Education’ across all grade levels in different settings can be transformational and has massive implications for the global workforce.

Academic research into why fewer women enroll, graduate and work in STEM related fields across different cultures in the UK, the US and the Caribbean all arrived at the same conclusions. While there is little difference in academic performance between male and female students in Computing programs, there were clear biases in the enrollment, retention and graduation of female IT students1. Why? We don’t know. Or rather, we can identify glaring correlations with the data that we do have. We discuss a few later in the article and present possible causes and solutions.

We are all already fully swept up on the wave of the current technological revolution. There are some well-known leaders at its crest – based solely on the disrupting influence they have had on events ushering in and sustaining the tide. Bill Gates may ring a bell, as will Elon Musk, Steve Jobs, and Mark Zuckerberg. But how did we get here? There was Alan Turing Father of the “Turing Machine”, a theoretical model on which modern computing is based. But did you know about the very first computer programmer? Ada Lovelace. Her notes on the “Analytical Engine” became the inspiration for Alan Turing’s “Turing Machine” a century later in the 1930s. She recognized that the machine had applications beyond simple calculation. She then wrote the first algorithm for it.

Turing’s ideas became the first computer and Lovelace’s became the first computer program. By the 1960s Katherine Johnson5 was optimizing these programs by manually verifying the computer’s math. Her work helped the US win the space race against Russia. It also advanced human space exploration immeasurably –the irony of Johnson doing her computations by hand is evident. The absence of the contributions of female pioneers like these from the popular psyche possibly foreshadowed gender representation trends in STEM and tech today.

The Face of Tech

In a PwC survey of 2,176 university students in the UK (1,102 females and 1,074 males) 83% of female respondents found it impossible to name a role model in the tech industry that inspires them to pursue a career in the field compared to only 59% of male respondents. Only 22% of all the students could name a famous woman working in the industry today2. The face of Technology, Science, Engineering and Math is male. The number of male and female students enrolling at the university level in STEM related programs are comparable, as is academic performance in these programs. The marked difference exists in graduation rates and entry into the workforce3.

“If louder voices are heard celebrating the achievements of women in tech, and STEM in general, more women will feel empowered in their career choices, and young people will be inspired to consider a future in STEM”

The Women Who Changed the Tech World. Amelia Whyman

In the above article by Amelia Whyman, some past and present pioneers are saluted, if only briefly. She presents it simply, if the impact of women doing extraordinary things in the field is celebrated alongside movements of the tide, and if their stories are told, girls can see clear pathways to places in tech where their talents fit perfectly. 50% of the females interviewed2 say the most important factor when choosing a future career is feeling like the work they do makes the world “a better place/has a wider impact”. This also is a larger discussion when we consider salary disparities between men and women later in the article- In the UK, the technical sector has the fourth highest gender pay gap of all industries2.

Diversity within the industry and a workforce is a concern because we need as many perspectives on our global issues as possible- male or female. Representation ensures one’s interests are considered when decisions are made. This is far reaching and also affects the bottom line. Being able to engage with customers effectively requires a diversely representative workforce.

It is striking that only 23% of persons working in STEM fields in the UK are women and only 5% of those in the field are in leadership roles. In the US, while women make up 47% of the workforce they represent only 25% of those employed in computing related jobs. In Jamaica, there is little difference in school enrollment and academic performance between males and females at all levels of education3. It gets more interesting at the tertiary level.

A study at the University of the West Indies found that across all its campuses women represented 40% of those enrolled in Computer Science programs but only 20% of graduands with a Computing degree. The barrier doesn’t appear to be competence, skill or academic performance. In the same study at some campuses women actually demonstrated marginally higher GPAs than men in Computing programs. Similarly, in the US, only 38% of women who majored in a Computer Science degree are employed in the field compared to 53% of men1. Some research suggests lower confidence in their abilities as being associated with lower matriculation from STEM fields for women3. This underscores the need for female role models and mentors whose contributions to the discipline and industry are celebrated alongside their male counterparts.

Both PwC and Google studies have found that at the secondary school age, girls were presented with STEM related subjects as career options less often than boys were (33% of boys reported being encouraged to pursue a career in STEM compared to 16% of girls)2. In the Google study4, girls reported that they went into tech because they were encouraged to.

So, girls deciding to go into tech cite encouragement at around secondary level when they are selecting career choices (and when role models are important). We present them STEM subjects as options less often than we do for boys resulting in less women entering the field, less role models and less visible pathways into technical fields. This is a problem because it restricts the number of people participating in areas in the workforce which impact all areas of our lives. If that doesn’t matter to you then it also affects the bottom line – technology is a a billion dollar industry and improvements in the workforce impacts all lives.

“Every 10% increase in the female labor force participation rate… is associated with a 5% increase in wages for both men and women…”

When More Women Join the Workforce, Wages Rise Amanda Weinstein

New educational opportunities in secondary schools are important as girls at this level expressed a desire for creative pathways in tech. In the PwC study girls reported not finding STEM subjects as interesting and choosing to do subjects that they got better grades in. Research into curriculum design geared at making STEM concepts, subjects and careers more appealing to girls seems more than necessary. 52% said that their preferred career was a factor in their selection of A-Level subjects2.

The same study also reported that men were more likely to select careers based on salary. This is especially impactful in high income industries such as tech. Could this be why there is such salary disparity between men and women in STEM fields and an even wider under-representation of women in leadership roles? The impact on lifetime earnings is clear.

Technology impacts us all, science impacts us all. Representation for half of our population is absent from participation in the vehicle instrumenting change in their lives. This impacts economic development strategies based on digital transformation. Female participation in the labor force increases wages for all workers.

The goal is then greater participation of women in the technical (STEM) workforce. We could start to do this with;

Early Exposure: This is early introduction of STEM subjects and career pathways to girls both in formal and informal learning settings.

Varied Career Choices: Present STEM principles in varied ways to increase interest. Varied visions can use science and technology to solve global issues in innovative ways.

Female Role Models: Ada Lovelace and Kathryn Johnson took some girls decades to find as role models. These women should have been presented alongside the male pioneers and their contributions celebrated as universal role models. Let’s have more places (hopefully here) that celebrate the accomplishments of women, highlighting their involvement in the technology industry and have spirited discussion around STEM Education.

Curriculum Design: Findings are consistent across inquiries about low comparative participation of girls and women in STEM fields and careers. A green field for exploration lies in education in these areas and how these principles are presented to female students Namely, discussions surrounding teaching and learning in STEM.

Address Salary Disparities: Representative discussions on existing salary disparities must drive changes in employment policies. This could be a consequence of an already wide disparity in the competitiveness of smaller regions amongst more larger ones or incentives geared specifically for women. This should be part of a larger more nuanced discussion to come.

How can we remove barriers to female entry in science and technology fields? This is a discussion we hope to continue in this series – exploring new and different ways of viewing and working in tech. If blending poetry and data structures sound delightful, stay tuned! We will also explore any interesting things we come across on female disruptors and tectonic shifters on the current wave.

Shannika Jackson February 2022 (PDF)

References

1. Whyte, S, 2020: Women in tech statistics: The hard truths of an uphill battle

2. PwC 2017: Women in Tech, Time to close the gender gap

3. Fokum, D. Coore, D. Fokum, Y. 2014: The Performance of Female Computer Science Students across Three Caribbean Islands

4. Google, 2014: Women Who Choose Computer Science – What Really Matters. The Critical Role of Encouragement and Exposure

5. Fox, M, 2020: Katherine Johnson Dies at 101; Mathematician Broke Barriers at NASA

Meet Patibanda Sriram

Patibanda is one of our 2022 GitHub Externship – Winter Cohort students working on our Talawa project. He started formal coding with the Externship in January and has been collaborating with other students and mentors on his various GitHub pull requests.

Welcome Patibanda!


I’m Patibanda Sriram, a 3rd-year undergraduate student pursuing a B.Tech from the National Institute of Technology, Rourkela, India. I’m a self-taught developer who enjoys developing apps that matter. I’ve started learning to code in my freshman year and have been hooked on developing apps that matter.

Currently, I’m working as a GitHub Extern for Palisadoes Foundation. Over the period, I’ll be developing the chat feature of the app along with my fellow externs. I really like contributing to open-source software.  As a maintainer of our college’s Institute Counselling Services app, which is open-sourced, I know the zeal and effort it takes to maintain a community project to serve the greater good. Hence, I found talawa to be a very interesting app for me to work with and contribute.

In my free time, I like to play video games, learn new songs and contribute to the communities, be it college or open-source. As a core-team member of the Google Developer Student Club of our college, I’ve made many apps with my fellow club members that solve the community problems around us. I was also a technical team member of Monday Morning, which is the second-largest student media body in India, and have maintained their website and app. I’ve also conducted many community events like the HackNITR hackathon, workshops, etc. I also mentor students in hackathons and various other coding events whenever possible. 

Meet Mentor Troy Anderson

Troy began volunteering with The Palisadoes Foundation in 2021 to support our Google Summer of Code (GSoC) students.


I am a Software Engineer at Digicel Group specializing in backend as well as cross platform mobile development and was a primary contributor in the development of the MyDigicel App. My primary role in GSOC entails planning and code reviews for the Talawa mobile app to ensure the code remains maintainable, testable and readable during it’s lifecycle.
Having had mentors not only during school but also throughout my professional career,
GSOC is my way of paying those favors forward; empowering those whose position I was once in. The journey of learning never ends and I am happy to say I learn as much from students as they do from me; I believe that’s what GSOC and mentoring in general is all about.
Outside of work I enjoy traveling, cooking and the occasional amateur photography

Calico Challenge 2022

Santa Clara, CA – January 2, 2022: The Palisadoes Foundation is pleased to announce the latest iteration of our annual Calico Challenge.

The Calico Challenge is a program that offers stipends to Jamaica based student developers to write software code for our various open source software projects. It allows students to publicly show the quality of their work.

The projects are advanced. A majority of participants are enrolled in university or college Computer Science and Computer Engineering programs.

For the past four years we have focused on creating Talawa, a mobile app to help community organizations like ourselves better manage their membership. We first saw the need for a social media component to keep in contact with our volunteers. Later, we realized that these organizations often faced challenges with the project management of events and keeping track of volunteer abilities, roles and responsibilities.

We are glad to restart the Calico Challenge after the difficulties of the COVID19 pandemic. Despite these challenges, our coders managed to make continuous updates, and our sponsors kept in touch. This is a continuation of our successes with the international Google Summer of Code and GitHub Externship programs. It is good to be back.

Peter Harrison, President, The Palisadoes Foundation

The aim is to make Talawa useful for any community-based organization such as clubs, small religious institutions, neighborhood groups, and volunteer associations. We also want to see how the open source software could be installed as a “freemium” cloud service as many of these organizations often don’t have sufficient IT skills to run the software independently. We hope that our contributors will help us achieve this goal in 2022. We hope that revenue from the cloud service will partially supplement inflows from our donors and sponsors to help us expand the Calico program further.

More information about Calico can be found on our website’s Calico Challenge page.


Our Current and Past Sponsors

Many corporations and individuals have contributed to the success of the Calico Challenge. Here is a representative list.


About the Palisadoes Foundation

Since 2016, The Palisadoes Foundation has been assisting STEM students to become globally competitive in software engineering. Palisadoes does this by providing new avenues to promote STEM education for university students in under-served communities. The Foundation uses a series of programs aimed at creating increased awareness of their abilities in the global marketplace.

Meet Utkarsh Shendge

Utkarsh is one of our 2021 Google Summer of Code (GSoC) students working on our Talawa project. He started participating in March, and was formally accepted as a GSoC student in May. He has been collaborating with other students and mentors on his various GitHub pull requests.

Welcome Utkarsh!


My name is Utkarsh Shendge and I am an undergraduate student at Vishwakarma Institute of Technology, pursuing Computer Science and Engineering as my Major. Currently, I am working as a Google Summer of Code student developer with Palisadoes Foundation. And my primary focus is on improving the UI/UX of the Talawa App. I always wanted to build applications that help people on a global scale and I am really happy that I am doing the same by working with other student developers under the guidance of mentors.


I have a keen interest in App development, Machine Learning and I love studying Advanced Algorithms. My primary focus and inspiration for my studies are software algorithms. I have 2 years of experience in app development and I have been working with the flutter framework for more than 18 months. I have been a Data Structures and Algorithms tutor and completed a few freelancing gigs.