All-provider course timetable
Thursday 5 March 2015
09:30 |
This two-part course will describe good-practice aspects of designing, building and running a web site, and providing information on a web server. The requirements for providing accessible web pages, utilising the site-wide search engine on your web pages and liaising with a web design company are also covered. In addition, Helen Sargan runs an "access/site design clinic" with information providers on a one-to-one basis: please contact her directly to make an appointment. |
This beginners course equips you with the skills to implement a relational database design entity relationship diagram (ERD) into a MySQL database. |
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This course is part of the Scientific Computing series. No previous experience of shell scripting is required for this course; however some knowledge of the interactive use of the bash shell is a prerequisite (see Simple Shell Scripting for Scientists: Prerequisites for details). This course introduces shell scripting in bash for scientific computing tasks. Day one introduces very basic shell scripts in bash which process the command line in a simple fashion. Day two covers how to write more advanced shell scripts in bash. Day three covers how to make one's shell scripts more robust. At the end of each day one or more exercises are set. It is VERY IMPORTANT that attendees attempt these exercises before the next day of the course. Attendees should make sure that they have allowed themselves sufficient study time for these exercises between each day of the course. |
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10:00 |
Negotiation Skills
Finished
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14:15 |
This beginners course equips you with the skills to implement a relational database design entity relationship diagram (ERD) into a MySQL database. |
Python: Checkpointing
Finished
This course is part of the Scientific Computing series. This course introduces the concept of checkpointing - the saving of a program's state while the program is running, such that the program can be restarted from that saved state - and describes how to implement application-level checkpointing for certain types of scientific programming tasks in Python. Attendees will benefit most from this course if they have a clear idea of the types of task which they wish to checkpoint prior to attending. |
Friday 6 March 2015
17:30 |
Lecturing and Performance CPPD2
Finished
Test course description |
Sunday 8 March 2015
09:00 |
Presentation Skills
Finished
Would you like to be in control of your day, enhance your reputation and gain more job satisfation? Then this is the course for you. |
09:30 |
This course is part of the Scientific Computing series. No previous experience of shell scripting is required for this course; however some knowledge of the interactive use of the bash shell is a prerequisite (see Simple Shell Scripting for Scientists: Prerequisites for details). This course introduces shell scripting in bash for scientific computing tasks. Day one introduces very basic shell scripts in bash which process the command line in a simple fashion. Day two covers how to write more advanced shell scripts in bash. Day three covers how to make one's shell scripts more robust. At the end of each day one or more exercises are set. It is VERY IMPORTANT that attendees attempt these exercises before the next day of the course. Attendees should make sure that they have allowed themselves sufficient study time for these exercises between each day of the course. |
Monday 9 March 2015
14:15 |
This course is part of the Scientific Computing series. This course is aimed at those new to programming and provides an introduction to programming using Python, focussing on scientific programming. This course is probably unsuitable for those with significant programming experience. By the end of this course, attendees should be able to write simple Python programs and to understand more complex Python programs written by others. As this course is part of the Scientific Computing series, the examples chosen are of most relevance to scientific programming. |
Mathematica: Symbolic Linear Algebra
Finished
This course is part of the Scientific Computing series. This course will cover using Mathematica for symbolic calculations (i.e. ones operating on formulae and not just numbers), concentrating on linear algebra. It will show how to use this to get first and higher order approximations to some linear algebra problems. It will indicate how it can be used for other such work, but not attempt to teach the details. The emphasis will be more on teaching what can be done than on teaching rules for how to do specific tasks. Attendees should note that this is one of the most advanced courses on scientific computation given in the University, by any department, and is not suitable for inexperienced programmers. |
Tuesday 10 March 2015
09:30 |
This course is part of the Scientific Computing series. It is common for a student or researcher to find a piece of software or to have one thrust upon them by a supervisor which they must then build, install and use. It is a myth that any of this requires system privilege. This course demonstrates the building, installation and use of typical software ranging from trivially easy examples (the "configure, make, install" scheme) through to the evils of badly written Makefiles. Common errors and what they mean will be covered and by the end of the course the student should be able to manage their own software without needing to pester their system administrator. |
A course in basic C programming intended for beginners to programming only. The aim of the course is to get everyone to the stage of being able to write small utility programs in C for carrying out simple calculations and data manipulation. |
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A course in basic C programming intended for beginners to programming only. The aim of the course is to get everyone to the stage of being able to write small utility programs in C for carrying out simple calculations and data manipulation. |
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14:15 |
This course is part of the Scientific Computing series. This course is aimed at those new to programming and provides an introduction to programming using Python, focussing on scientific programming. This course is probably unsuitable for those with significant programming experience. By the end of this course, attendees should be able to write simple Python programs and to understand more complex Python programs written by others. As this course is part of the Scientific Computing series, the examples chosen are of most relevance to scientific programming. |
Wednesday 11 March 2015
09:00 |
Negotiation Skills
Finished
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09:30 |
This course is part of the Scientific Computing series. It is common for a student or researcher to find a piece of software or to have one thrust upon them by a supervisor which they must then build, install and use. It is a myth that any of this requires system privilege. This course demonstrates the building, installation and use of typical software ranging from trivially easy examples (the "configure, make, install" scheme) through to the evils of badly written Makefiles. Common errors and what they mean will be covered and by the end of the course the student should be able to manage their own software without needing to pester their system administrator. |
This course is part of the Scientific Computing series. No previous experience of shell scripting is required for this course; however some knowledge of the interactive use of the bash shell is a prerequisite (see Simple Shell Scripting for Scientists: Prerequisites for details). This course introduces shell scripting in bash for scientific computing tasks. Day one introduces very basic shell scripts in bash which process the command line in a simple fashion. Day two covers how to write more advanced shell scripts in bash. Day three covers how to make one's shell scripts more robust. At the end of each day one or more exercises are set. It is VERY IMPORTANT that attendees attempt these exercises before the next day of the course. Attendees should make sure that they have allowed themselves sufficient study time for these exercises between each day of the course. |
Thursday 12 March 2015
09:30 |
This course is part of the Scientific Computing series. It is common for a student or researcher to find a piece of software or to have one thrust upon them by a supervisor which they must then build, install and use. It is a myth that any of this requires system privilege. This course demonstrates the building, installation and use of typical software ranging from trivially easy examples (the "configure, make, install" scheme) through to the evils of badly written Makefiles. Common errors and what they mean will be covered and by the end of the course the student should be able to manage their own software without needing to pester their system administrator. |
A course in basic C programming intended for beginners to programming only. The aim of the course is to get everyone to the stage of being able to write small utility programs in C for carrying out simple calculations and data manipulation. |
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10:00 |
Lecturing & Performance cppd1
Finished
Test course description for Lecturing and Performance for cppd1 |
Negotiation Skills
Finished
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14:15 |
This course is part of the Scientific Computing series. This course is aimed at those new to programming and provides an introduction to programming using Python, focussing on scientific programming. This course is probably unsuitable for those with significant programming experience. By the end of this course, attendees should be able to write simple Python programs and to understand more complex Python programs written by others. As this course is part of the Scientific Computing series, the examples chosen are of most relevance to scientific programming. |
Friday 13 March 2015
09:30 |
Lecturing and Performance 11
Finished
Test course description |
14:00 |
LECTURING AND PERFORMANCE 4
Finished
test course description |