Computing in Math, Science, Engineering & Medicine Faculty Jobs

Unlock Your Future in Computing in Mathematics, Natural Science, Engineering and Medicine: Thriving Careers and Student Pathways Await!

Computing in Mathematics, Natural Science, Engineering and Medicine faculty jobs are at the forefront of transforming complex scientific challenges into solvable problems through powerful algorithms, simulations, and data analysis. This dynamic interdisciplinary field, often referred to as scientific computing or computational science, equips researchers to model climate patterns, simulate protein folding for drug discovery, optimize engineering designs, and analyze vast datasets from telescopes or medical imaging. For novices, imagine using computers not just for basic calculations but to predict earthquakes, design safer aircraft, or personalize cancer treatments—bridging pure theory with real-world impact.

Career pathways in Computing in Mathematics, Natural Science, Engineering and Medicine typically begin with a bachelor's degree in computer science, mathematics, physics, engineering, or related fields, followed by a PhD emphasizing computational methods. Postdoctoral positions, lasting 1-3 years, build expertise through research at labs like Argonne National Laboratory or national centers for supercomputing. Entry-level assistant professor roles require strong publication records in journals like SIAM Journal on Scientific Computing, teaching experience, and grantsmanship. Mid-career advancement to associate and full professor involves leading research groups and securing funding from NSF or NIH, with salaries averaging $125,000 for assistant professors, rising to $180,000+ for full professors in the US (per 2023 Chronicle of Higher Education data). Trends show 12% hiring growth over the past five years, driven by AI integration and big data needs, outpacing general CS by 3% (NSF reports). Globally, opportunities abound in Europe at ETH Zurich or the UK at Imperial College London, where salaries range £50,000-£100,000 ($65,000-$130,000 USD).

Students eyeing this path will find abundant opportunities. Undergraduate courses introduce numerical methods (solving equations computers can't do by hand) and MATLAB/Python programming for simulations. Graduate programs at top institutions like Stanford University, MIT, or University of Illinois Urbana-Champaign offer specialized MS/PhD tracks with hands-on projects, internships at NASA or pharmaceutical firms, and scholarships via AcademicJobs.com scholarships. Check Rate My Professor for insights on faculty in Computing in Mathematics, Natural Science, Engineering and Medicine courses, or explore professor salaries to gauge earning potential. Networking at conferences like SC (Supercomputing) is key—start by presenting posters as a grad student.

Whether transitioning from industry or launching from academia, success hinges on interdisciplinary skills: learn high-performance computing (HPC) for massive simulations and domain knowledge in biology or fluid dynamics. Ethical considerations, like bias in medical models, are crucial. Dive into higher ed career advice for resume tips, and browse higher ed jobs today to find your next role in faculty positions. For global prospects, check openings in US, Canada, or Los Angeles. Explore resources like the SIAM Scientific Computing page for deeper dives.

🚀 Unlock the Future of Discovery: Dive into Computing in Mathematics, Natural Science, Engineering and Medicine!

Computing in Mathematics, Natural Science, Engineering and Medicine—often called computational science or scientific computing—harnesses powerful algorithms, simulations, and data analysis to tackle intricate problems that traditional methods can't solve. Imagine modeling climate change patterns, designing safer aircraft through fluid dynamics, predicting protein structures for new drugs, or simulating quantum reactions in chemistry. This interdisciplinary field blends computer science with math, physics, biology, engineering, and medical sciences, making it essential for modern research.

Its history traces back to the 1940s with early computers like ENIAC used for ballistic calculations during World War II. The 1960s saw numerical methods flourish for solving partial differential equations (PDEs), evolving into today's high-performance computing (HPC) era. By 2024, the U.S. Department of Energy's Frontier supercomputer achieved exascale performance—one quintillion calculations per second—revolutionizing simulations. According to the U.S. Bureau of Labor Statistics (BLS), computer and mathematical occupations are projected to grow 15% from 2022 to 2032, far outpacing average job growth, driven by big data and AI integration.

Why does it matter now? In an era of climate crises, pandemics, and renewable energy needs, computational experts enable breakthroughs. For instance, in medicine, tools like AlphaFold have accelerated drug discovery by predicting 3D protein structures, slashing years off research timelines. Engineering benefits from computational fluid dynamics (CFD) for optimizing wind turbines, while natural sciences use molecular dynamics simulations to study material properties at atomic levels.

For jobseekers eyeing Computing in Mathematics, Natural Science, Engineering and Medicine faculty jobs, a PhD in computer science, applied mathematics, physics, or a related field is standard, often with postdoctoral experience in HPC or domain-specific modeling. Faculty salaries average $130,000-$180,000 annually in the U.S., per professor salaries data from the American Association of University Professors (AAUP), higher at top institutions like Stanford or MIT. Hotspots include Silicon Valley hubs like Palo Alto (Stanford's Institute for Computational and Mathematical Engineering), Cambridge (MIT), and national labs in Knoxville (Oak Ridge). Explore openings on higher-ed-jobs/faculty or research-jobs.

Students, start with undergraduate courses in numerical analysis, linear algebra, and programming (Python, MATLAB, Fortran). Top programs shine at Ivy League schools like Princeton or globally at ETH Zurich. Rate professors in this niche on rate-my-professor to choose wisely—search for those excelling in computational biology or engineering simulations. Actionable tip: Build a GitHub portfolio with personal simulations and attend SIAM conferences for networking. Check career advice like postdoctoral success to map your path from grad school to tenure-track roles.

Whether you're a novice learning finite element methods or a pro eyeing postdoc positions, this field offers global impact. Dive deeper via the SIAM Careers page or U.S. NSF Computational Science programs.

Essential Qualifications to Launch Your Career in Computing in Mathematics, Natural Science, Engineering and Medicine 🎓

Computing in Mathematics, Natural Science, Engineering and Medicine (often abbreviated as computational science or scientific computing) involves developing algorithms, simulations, and software to tackle complex problems across disciplines like physics simulations, biological modeling, engineering optimizations, and medical imaging analysis. Faculty roles in this niche demand a blend of deep technical expertise and domain knowledge, making it ideal for those passionate about bridging computing with real-world scientific challenges. Aspiring jobseekers, especially in Computing in Mathematics, Natural Science, Engineering and Medicine faculty jobs, should focus on building a robust foundation to stand out in academia.

Required Education

A PhD is typically mandatory for tenure-track positions, usually in Computer Science, Applied Mathematics, Physics, Engineering, or a related field with a computational focus. For example, programs at top institutions like MIT's Computational Science and Engineering or Stanford's Institute for Computational and Mathematical Engineering emphasize interdisciplinary training. Master's degrees serve as a stepping stone for research assistant roles, while a Bachelor's in Computer Science (CS) or Mathematics provides entry into industry before academia. Over the past decade, hiring trends show a 25% rise in demand for PhD holders skilled in high-performance computing, per NSF data.

Key Skills and Certifications

• 🔧 Proficiency in programming languages like Python, MATLAB, C++, and Fortran for numerical simulations.
• 📊 Expertise in data analysis, machine learning, parallel computing, and finite element methods.
• 🔬 Domain-specific knowledge, such as bioinformatics for medicine or fluid dynamics for engineering.

Certifications are not always required but strengthen profiles: consider NVIDIA's Deep Learning or AWS Certified Machine Learning for cloud-based simulations. Check professor salaries in this field, averaging $115,000-$160,000 for assistant professors in the US (2024 Glassdoor data), higher at elite universities.

Steps to Strengthen Your Profile

Tips for jobseekers: Tailor your CV to highlight interdisciplinary impact, prepare for interviews with coding challenges on scientific datasets, and explore higher-ed-jobs or research-jobs. Students, browse Rate My Professor for top courses at Caltech or UC Berkeley. For global insights, visit SIAM.org. Leverage higher-ed-career-advice for CV tips, and track openings in hotspots like California or US. With AI-driven simulations booming (projected 30% job growth by 2030), now's the time to build these qualifications.

Career Pathways in Computing in Mathematics, Natural Science, Engineering and Medicine

Embarking on a career in Computing in Mathematics, Natural Science, Engineering, and Medicine (CiMNS-EM)—a field blending computational techniques with scientific modeling—requires a structured academic journey. This interdisciplinary area powers simulations for climate modeling, drug discovery, fluid dynamics in engineering, and bioinformatics, making it vital for modern research. Aspiring faculty start with foundational education, gain hands-on experience through research, and build credentials for tenure-track positions. The path demands persistence amid competition, but offers rewarding roles at top institutions like MIT, Stanford, and Argonne National Laboratory.

Typical timelines unfold over 10-15 years post-high school. Key extras include summer internships at national labs (e.g., via REU programs), undergraduate research, and conference presentations. Statistics show PhD holders in computational science earn median starting assistant professor salaries of $115,000-$140,000 annually in the US (per AAUP 2023 data), with growth projected at 15% through 2030 due to AI and big data demands (NSF reports). Pitfalls include publication droughts delaying progress or funding shortages; avoid by diversifying research and networking early.

• Actionable Advice: Start undergrad research via research assistant jobs; attend NeurIPS or SC conferences. For US hubs, target San Francisco or Boston. Students: Enroll in courses at Ivy League schools.
• Pitfall Dodge: Balance teaching demos with grants; use higher ed career advice blogs like postdoctoral success tips.
• Global Note: In Europe, Marie Curie fellowships aid postdocs; Asia sees booms at NUS Singapore.

Rate CiMNS-EM professors on Rate My Professor for insights, or browse faculty jobs and postdoc opportunities on AcademicJobs.com. Verify paths via SIAM's career resources.

📊 Salaries and Compensation in Computing in Mathematics, Natural Science, Engineering and Medicine

Salaries in Computing in Mathematics, Natural Science, Engineering and Medicine—a field blending computational methods with disciplines like physics, biology, and engineering—vary widely based on role, experience, institution type, and location. These interdisciplinary roles command competitive pay due to high demand for expertise in simulations, data modeling, and AI applications across sciences. For jobseekers eyeing faculty positions, understanding these factors can sharpen your negotiations and career planning.

In the US, entry-level assistant professors earn $110,000–$160,000 annually, per 2023-2024 AAUP data and Chronicle of Higher Education surveys, with medians around $135,000 at research universities. Associate professors see $140,000–$190,000, while full professors range $170,000–$280,000+, especially at top institutions like MIT or Stanford where computational science leaders exceed $250,000. Postdocs start at $55,000–$75,000 (NSF stipends average $65,000). Trends show 4-7% annual growth over the past decade, fueled by federal grants in computational biology and climate modeling—faster than general academia (2-3%).

Globally, UK lecturers average £50,000–£70,000 ($65,000–$90,000 USD), rising to £80,000+ for seniors, with better work-life balance. In Australia, Level B academics earn AUD 110,000–150,000 ($72,000–$100,000 USD). Coastal US hubs like California or Massachusetts pay 20-30% more than Midwest states due to tech proximity and cost of living.

Key factors include PhD prestige (e.g., from Caltech boosts offers), publication record (h-index 20+ ideal), grant history (NSF CAREER awards add $20k+), and institution tier—R1 universities pay premiums. Negotiate base salary (aim 10-15% above offer), startup packages ($300k–$1M for labs), summer salary, and course releases. Benefits often include health coverage (valued at 20-30% of salary), TIAA retirement matching, sabbaticals every 7 years, and tuition waivers for dependents.

• 💡 Negotiation Tip: Benchmark via professor salaries on AcademicJobs.com; highlight your interdisciplinary grants.
• 📈 Trend Insight: AI integration drives 15% pay bumps in medicine-focused computational roles.

Check professor salaries breakdowns and rate my professor reviews for Computing in Mathematics, Natural Science, Engineering and Medicine faculty insights at dream schools. For global comparisons, explore AAUP Salary Survey. Tailor your path with higher ed career advice to maximize compensation.

📍 Location-Specific Information for Computing in Mathematics, Natural Science, Engineering and Medicine Careers

Computing in Mathematics, Natural Science, Engineering and Medicine (CMNS-EM) roles thrive in regions with robust research funding, interdisciplinary collaborations, and computational infrastructure. Globally, demand surges due to applications in climate modeling, drug discovery, and engineering simulations, with the U.S. leading in sheer volume of faculty positions, followed by Europe and Asia-Pacific. In the U.S., coastal tech hubs dominate: the San Francisco Bay Area boasts high demand from Stanford and UC Berkeley's computational biology centers, where salaries average $140,000-$180,000 for assistant professors amid NSF (National Science Foundation) grants exceeding $1 billion annually for scientific computing. Boston's biotech ecosystem at MIT and Harvard drives medical computing jobs, with quirks like heavy emphasis on AI integration. The Research Triangle in North Carolina offers lower costs but competitive tenure tracks tied to national labs like Oak Ridge.

Europe features stable opportunities; Germany's Max Planck Institutes in Munich prioritize engineering computations, with salaries around €60,000-€80,000 ($65,000-$87,000 USD equivalent) plus excellent work-life balance and EU-funded Horizon Europe projects (€95 billion budget through 2027). The UK, post-Brexit, sees quirks in funding shifts toward EPSRC grants, strong in Oxford and Cambridge for mathematical modeling. Switzerland's ETH Zurich excels in high-performance computing for natural sciences. Asia-Pacific booms: Singapore's A*STAR hubs demand CMNS-EM experts for precision medicine, with competitive salaries (~SGD 100,000/$75,000 USD) and expat-friendly visas. China's Tsinghua University leads in massive-scale simulations.

Jobseekers, target high-demand areas by networking at conferences like SIAM (Society for Industrial and Applied Mathematics). U.S. roles favor PhD plus postdoc experience; Europe values early publications. Check Rate My Professor for insights on CMNS-EM faculty in target schools, and explore professor salaries by location. Tailor applications to regional quirks—highlight grantsmanship for U.S., collaborations for Europe. Browse openings via U.S. jobs, San Francisco, Boston, UK jobs, or Germany.

For pathways, visit higher ed faculty jobs and career advice. Verify funding via NSF.gov or EU CORDIS.

🎓 Top or Specializing Institutions for Computing in Mathematics, Natural Science, Engineering and Medicine

Computing in Mathematics, Natural Science, Engineering and Medicine (often called scientific computing or computational science) applies advanced algorithms, simulations, and data analysis to solve complex problems across disciplines like physics, biology, engineering, and medicine. Top institutions lead in this interdisciplinary field, offering cutting-edge programs that prepare students and jobseekers for high-impact faculty roles. Explore these leaders to find Computing in Mathematics, Natural Science, Engineering and Medicine faculty jobs and build your career pathway.

Advice for Students and Jobseekers: Beginners should start with foundational courses in numerical analysis and programming (Python, MATLAB), then pursue internships via postdoc jobs. Jobseekers, tailor CVs highlighting interdisciplinary projects—network at SIAM conferences and benchmark via professor salaries. Students, rate experiences on Rate My Professor for Computing in Mathematics, Natural Science, Engineering and Medicine courses. Explore higher ed career advice and faculty jobs on AcademicJobs.com for pathways. Salaries have risen 15% over 5 years due to AI demand (US News data).

Tips for Landing a Job or Enrolling in Computing in Mathematics, Natural Science, Engineering and Medicine

• ✅ Develop a Strong Interdisciplinary Foundation: Computing in Mathematics, Natural Science, Engineering and Medicine requires blending computer science with domain expertise like physics simulations or bioinformatics. Start by earning a PhD in computer science (CS), applied mathematics, or a related field such as computational biology. Step-by-step: 1) Take core courses in numerical methods, high-performance computing (HPC), and domain-specific modeling (e.g., finite element analysis for engineering). 2) Pursue minors or certificates in biology, physics, or engineering. Example: A student at MIT combined CS with mechanical engineering for fluid dynamics simulations. Ethical insight: Always prioritize transparent algorithms to avoid biases in medical imaging models. Check professor salaries in this field, averaging $130,000-$160,000 for assistant professors in the US per recent data.
• ✅ Publish High-Impact Research: Faculty jobs demand peer-reviewed papers in journals like SIAM Journal on Scientific Computing. Step-by-step: 1) Identify gaps, e.g., GPU-accelerated climate modeling. 2) Collaborate via tools like GitHub. 3) Submit to conferences like SC (Supercomputing). Example: Researchers at Stanford published on neural networks for protein folding, landing tenure-track roles. Ethical advice: Cite sources accurately and share code openly for reproducibility. Use Rate My Professor to research mentors in computing in mathematics, natural science, engineering and medicine.
• ✅ Network at Specialized Conferences: Attend events like SIAM CSE or IEEE Cluster to connect with hiring committees. Step-by-step: 1) Prepare a 2-minute elevator pitch on your HPC work in medicine. 2) Follow up via LinkedIn. 3) Volunteer as a session chair. Example: A postdoc from UIUC networked at IPDPS, securing a faculty position at UT Austin. Ethical tip: Build genuine relationships, not transactional ones. Explore faculty jobs on AcademicJobs.com.
• ✅ Gain Teaching Experience Early: Universities seek candidates who can teach computational methods courses. Step-by-step: 1) TA undergrad classes in numerical analysis. 2) Develop open-source syllabi. 3) Guest lecture on Python for scientific computing. Example: Adjunct roles at community colleges led to full-time offers. For students, enroll in programs at top institutions like Caltech. Link to professor reviews for course insights.
• ✅ Master Key Tools and Software: Proficiency in Python (NumPy, SciPy), MATLAB, and MPI is essential for simulations. Step-by-step: 1) Complete online courses on Coursera. 2) Build a portfolio project, like agent-based modeling for epidemiology. 3) Certify in cloud HPC (AWS). Example: Tools enabled breakthroughs in engineering crash simulations. Ethical: Use open-source to promote accessibility. See career advice.
• ✅ Tailor Applications to Interdisciplinary Roles: Customize CVs for postings emphasizing computing in natural sciences. Step-by-step: 1) Highlight grants like NSF CAREER. 2) Write research statements with domain impact. 3) Prepare for interviews on ethical computing dilemmas. Example: A biologist-turned-computationalist adapted for engineering faculty at Georgia Tech. Download free resume templates.
• ✅ Pursue Fellowships and Postdocs: Bridge to faculty with positions at national labs like Argonne. Step-by-step: 1) Apply via SIAM fellowships. 2) Focus on medicine applications like MRI reconstruction. Example: Postdocs at Oxford led to EU faculty jobs. Ethical: Disclose conflicts in collaborative research.
• ✅ Leverage Online Resources and Ratings: Use platforms to gauge programs. Step-by-step: 1) Review Rate My Professor for computing in mathematics, natural science, engineering and medicine faculty. 2) Analyze salaries by location, e.g., higher in US tech hubs. 3) Join forums like ResearchGate. For global moves, check US or UK jobs.
• ✅ Stay Ahead of Trends like AI Integration: Fields grow 15% yearly per BLS data, driven by AI in drug discovery. Step-by-step: 1) Learn TensorFlow for scientific ML. 2) Attend webinars. 3) Propose innovative courses. Example: AI-accelerated simulations at Berkeley. Ethical: Ensure fairness in predictive medicine models. Visit postdoc jobs.

Diversity and Inclusion in Computing in Mathematics, Natural Science, Engineering and Medicine

In the interdisciplinary field of Computing in Mathematics, Natural Science, Engineering and Medicine (often called computational science or scientific computing), diversity and inclusion play crucial roles in driving innovation. This area applies computational methods to solve complex problems in physics, biology, engineering designs, and medical imaging, requiring teams with varied backgrounds to tackle real-world challenges effectively.

Demographics reveal ongoing underrepresentation. According to the National Science Foundation's 2023 data, women comprise about 24% of faculty in computer science and engineering overall, but in specialized niches like computational biology (a key subset), the figure rises to around 35% due to stronger female participation in life sciences. Underrepresented minorities, such as Black and Hispanic faculty, hold only 5-7% of positions in these fields, per CRA Taulbee Survey 2023. Globally, similar trends persist; for instance, in Europe, the European Commission's Horizon Europe reports women at 33% in ICT-related research roles.

Policies are advancing change. Many universities mandate diversity statements in faculty hiring for higher-ed jobs, while the NSF's ADVANCE program funds initiatives to support women and minorities. Institutions like MIT and Stanford have dedicated centers, such as MIT's Institute for Data, Systems, and Society, promoting inclusive practices. The ACM (Association for Computing Machinery) and SIAM (Society for Industrial and Applied Mathematics) enforce equity guidelines in conferences and grants.

The influence of diversity is profound: studies from McKinsey (2020) show diverse teams are 35% more likely to outperform peers in innovation, vital for applications like climate modeling or drug discovery. Benefits include broader problem-solving—e.g., culturally sensitive algorithms in medical computing reduce biases in AI diagnostics.

For jobseekers targeting professor salaries in this field (averaging $120K-$180K USD for assistant professors, per AAUP 2024), tips include: join affinity groups like Black in AI or Women in High Performance Computing; highlight inclusive research in your higher-ed career advice applications; seek mentors via Rate My Professor reviews of diverse faculty in computational science. Students can explore inclusive programs at top institutions like UC Berkeley's Computational Biology Department.

• 🎓 Attend workshops by SIAM Diversity Committee.
• 📊 Network at Grace Hopper Celebration for computing in sciences.
• 🔗 Check Rate My Professor for inclusive educators in bioinformatics.

Explore opportunities in the US (/us), UK (/gb/london), or Canada (/ca/toronto). Use AcademicJobs.com higher-ed jobs to find inclusive postings and rate-my-professor for insights into department cultures.

Important Clubs, Societies, and Networks in Computing in Mathematics, Natural Science, Engineering and Medicine

Joining key clubs, societies, and networks in computing in mathematics, natural science, engineering, and medicine (often called computational science or scientific computing) can supercharge your academic and professional journey. These organizations foster collaboration across disciplines like numerical simulations for physics models, bioinformatics for medicine, and finite element analysis in engineering. They offer conferences, workshops, journals, and job boards that are vital for staying ahead in this interdisciplinary field, where demand for faculty roles has grown 15-20% over the past decade due to AI and big data integration. Networking here leads to collaborations, grants, and positions at top institutions—essential for jobseekers exploring computing in mathematics, natural science, engineering and medicine jobs. Students benefit from student chapters, travel grants, and mentorship to build resumes for grad school or faculty positions.

• Society for Industrial and Applied Mathematics (SIAM): Leading global society for computational mathematics and applications in sciences and engineering. Benefits include access to journals like SIAM Journal on Scientific Computing, annual conferences like SIAM CSE (Computational Science and Engineering), and job postings. Significance: Enhances credentials for faculty roles; members often land positions at MIT or national labs. Join via SIAM membership ($50-200/year, student discounts). Advice: Attend CSE conference for networking—check Rate My Professor for session speakers.
• International Society for Computational Biology (ISCB): Focuses on computing in biology and medicine, like genomics and drug modeling. Offers ISMB conference, journal Bioinformatics, and career resources. Key for medical computing careers, with 20% membership growth post-COVID. Join at ISCB site (student $25/year). Pro tip: Use their job board alongside AcademicJobs.com research jobs.
• U.S. Association for Computational Mechanics (USACM): Promotes computational methods in engineering and mechanics. Hosts U.S. National Congress on Computational Mechanics. Benefits: Workshops, awards, SIGs on fluids/solids. Vital for engineering faculty pathways. Membership $50/year via USACM. Link to salaries via professor salaries.
• Society for Modeling & Simulation International (SCS): Covers simulation in natural sciences, engineering, medicine (e.g., virtual surgery models). Features SCSC conference, journals. Boosts simulation expertise for industry-academia transitions. Join for $95/year at SCS membership; students volunteer for free entry.
• IEEE Computer Society (Computational Systems SIGs): Technical committees on parallel computing for science/engineering. Access IEEE Transactions, Supercomputing Conference. Global network ideal for high-performance computing jobs. Student branches available; join IEEE for $100+/year via IEEE.
• International Association for Computational Mechanics (IACM): Worldwide network for computational engineering and sciences. Affiliates with WCCM congress. Great for international collaborations. Free student membership at IACM.

Engage early—many offer free webinars. For career tips, visit higher ed career advice and rate professors in these fields on Rate My Professor to choose mentors.

Resources for Computing in Mathematics, Natural Science, Engineering and Medicine Jobseekers and Students

• 💼 SIAM Career Resources: The Society for Industrial and Applied Mathematics (SIAM) offers a dedicated career center with job listings, resume workshops, salary surveys, and professional development webinars specifically for computing in mathematics, natural science, engineering, and medicine (often called computational or scientific computing). Jobseekers search the board for faculty and research positions, while students find internships and fellowships. It's helpful as SIAM posts over 150 relevant openings yearly from top universities like MIT and national labs, with average assistant professor salaries around $110,000-$140,000 USD based on 2023 data. Advice: Join SIAM ($50/year for students) for exclusive access and attend annual conferences for networking—tailor your CV to highlight modeling or simulation skills. Visit SIAM Careers. Check department vibes on Rate My Professor.
• 📋 MathJobs.org (AMS): Run by the American Mathematical Society (AMS), this is the go-to academic job board listing 500+ positions annually in computational mathematics and interdisciplinary computing for science, engineering, and medicine. Filter by "computational science" or "scientific computing" to find tenure-track roles at institutions like Stanford or Oxford. Use it by uploading your dossier for applications; students scout postdoc opportunities. Helpful for its applicant tracking and salary negotiation tips from postings (e.g., median $120K for associate profs per 2024 trends). Advice: Apply early in fall cycles and reference NSF-funded projects; pair with professor salaries data for offers. Browse MathJobs.
• 🧑‍🔬 NSF CISE Directorate: The U.S. National Science Foundation's Computer and Information Science and Engineering (CISE) directorate invests $1.2 billion yearly in computing in mathematics, natural science, engineering, and medicine via grants, fellowships like CAREER awards ($500K+), and Research Experiences for Undergraduates (REUs). Jobseekers apply for funded faculty positions; students gain hands-on projects at sites like Argonne Lab. Helpful for pathways—80% of CISE PIs land tenure-track roles within 5 years. Advice: Review active solicitations for computational biology or climate modeling; build grantsmanship skills via higher ed career advice. Explore NSF CISE.
• 🚀 Supercomputing Conference (SC): The annual International Conference for High Performance Computing, Networking, Storage, and Analysis (SC) hosts the world's largest HPC career fair with 150+ employers like ORNL and Google hiring for computing roles in engineering, medicine, and sciences. Virtual job board open year-round. Students network for grad admissions. Helpful amid 20% hiring growth in HPC (2020-2025 per SC reports). Advice: Demo your code on GitHub; target roles in exascale computing. Discover more at research jobs. SC Conference Careers.
• 📖 IEEE/ACM Computing in Science & Engineering (CiSE): This joint IEEE Computer Society and ACM magazine provides job ads, trend reports, and tutorials on computational methods for natural sciences, engineering, and medicine. Professionals use archives for skill-building; students for capstone ideas. Helpful with case studies like AI-drug discovery boosting med computing jobs 25% (2023 stats). Advice: Read recent issues for interview topics; subscribe digitally ($30/year). Link insights to faculty reviews on Rate My Professor. Access CiSE.
• 🎓 edX Scientific Computing Courses: Platforms like edX offer free/paid courses from universities (e.g., MIT's 18.S997 on Computational Science) teaching Python, MATLAB for math/science/eng/med applications. Students build portfolios; jobseekers upskill for roles requiring numerical methods. Helpful as 70% completers report career boosts per edX data. Advice: Earn certificates ($200) and apply to faculty jobs; focus on parallel computing trends. Start edX Courses.

Benefits of Pursuing a Career or Education in Computing in Mathematics, Natural Science, Engineering and Medicine

🚀 Diving into Computing in Mathematics, Natural Science, Engineering and Medicine—often referred to as scientific computing or computational science—offers transformative advantages for jobseekers and students alike. This dynamic field applies advanced algorithms, simulations, and high-performance computing (HPC) to tackle real-world challenges in physics simulations, climate modeling, bioinformatics, fluid dynamics in engineering, and medical imaging analysis. Whether you're aiming for faculty positions or graduate studies, the rewards are substantial, blending intellectual prestige with practical impact.

Job prospects shine brightly, with academic hiring trends showing steady growth. Over the past decade, demand for faculty in this niche has surged 20-25% due to interdisciplinary needs in data-driven science, according to reports from the National Science Foundation (NSF) and academic job boards. Top universities like MIT, Stanford, University of Illinois Urbana-Champaign (UIUC), and Caltech actively recruit experts to lead research in computational biology or materials science. For global opportunities, institutions such as ETH Zurich and the University of Cambridge offer prestigious roles bridging computation and natural sciences.

• 💰 Competitive Salaries: Entry-level assistant professors earn a median of $115,000-$140,000 annually in the US (AAUP 2023 data), rising to $160,000+ for full professors at research-intensive schools. Explore detailed breakdowns on professor salaries and university salaries pages. In Europe, salaries average €70,000-€100,000, with bonuses for grants.
• 🤝 Robust Networking: Connect at key events like the Supercomputing Conference (SC) or SIAM conferences on computational science. Use higher ed career advice to leverage these for collaborations, and check Rate My Professor for insights on faculty in Computing in Mathematics, Natural Science, Engineering and Medicine at target schools.
• 🏆 Prestige and Impact: Contribute to breakthroughs, like protein folding models aiding drug discovery or engineering simulations for renewable energy. This prestige enhances your resume for national labs (e.g., Argonne, ORNL) or industry transitions.

For students, coursework in numerical analysis, parallel computing, and domain-specific modeling builds versatile skills. Top programs at UIUC's Computational Science and Engineering or Stanford's ICME (Institute for Computational and Mathematical Engineering) prepare you for PhD pathways—essential for faculty roles. Start by rating courses on Rate My Professor for Computing in Mathematics, Natural Science, Engineering and Medicine professors, and browse higher ed faculty jobs or research jobs to see openings.

To maximize outcomes, pursue a PhD with interdisciplinary focus (e.g., CS + Physics), secure publications, and network early via internships. Honest advice: Competition is fierce at elite schools, so highlight unique applications like computational neuroscience. Regions like /us/california and /us/massachusetts host hubs; check /uk for European prospects. Read postdoctoral success tips for next steps. Visit the Society for Industrial and Applied Mathematics (SIAM) for resources. Ultimately, this field delivers fulfillment through innovation, financial stability, and global influence—perfect for ambitious minds.

Perspectives on Computing in Mathematics, Natural Science, Engineering and Medicine from Professionals and Students

Professionals in computing in mathematics, natural science, engineering, and medicine—commonly known as scientific computing—often highlight the thrill of applying computational tools to solve real-world challenges like climate simulations, genomic sequencing, and biomechanical modeling. Faculty members stress that success demands a blend of advanced algorithms, high-performance computing (HPC), and domain knowledge, with many crediting interdisciplinary collaborations for breakthroughs in drug discovery and renewable energy engineering. On RateMyProfessor, top-rated professors in this niche, such as those at MIT teaching numerical methods for partial differential equations, earn praise for bridging theory and practice, with average ratings above 4.5/5 for clarity and innovation.

Students echo these sentiments, describing courses as rigorous yet transformative, equipping them for roles in national labs or research jobs. Reviews on RateMyProfessor for instructors specializing in computational biology at UC Berkeley note, "The projects on molecular dynamics simulations landed me an internship—life-changing!" However, some caution about heavy workloads in finite element analysis classes, advising to select profs with engaging lectures. To aid your decisions on faculty positions or coursework, dive into RateMyProfessor profiles tailored to computing in mathematics, natural science, engineering, and medicine; filter by university to uncover honest feedback on mentoring and research opportunities.

Expert advice includes networking at conferences like SIAM (Society for Industrial and Applied SIAM) events and building portfolios with open-source contributions to tools like NumPy or GROMACS. For career pathways, check higher-ed career advice on tailoring CVs for these roles, and explore professor salaries averaging $130,000-$180,000 USD for assistant professors in the US, higher in tech hubs like California. Students eyeing grad school should prioritize programs at Caltech or Argonne-affiliated unis, using RateMyProfessor to vet advisors. These insights empower informed choices in this dynamic field blending code with scientific discovery.