| Language of instruction : English |
| Exam contract: not possible |
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Sequentiality
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Advising sequentiality bound on the level of programme components
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Following programme components are advised to also be included in your study programme up till now.
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Digital electronic circuits (4081)
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4.0 stptn |
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| Degree programme | | Study hours | Credits | P2 SBU | P2 SP | 2nd Chance Exam1 | Tolerance2 | Final grade3 | |
 | 3rd year Bachelor of Engineering Technology - Electronics and ICT Engineering Technology | Compulsory | 162 | 6,0 | 162 | 6,0 | Yes | Yes | Numerical |  |
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| | | Learning outcomes |
- EC
| EC1 - The holder of the degree possesses general scientific and technological application-oriented knowledge of the basic concepts, structures and coherence of the specific domain. | | | - DC
| EA 1.5 The student knows the operation and function of the (advanced) functional building blocks for digital circuits. | | | | - BC
| The student knows the design aspects of hardware, organization and architecture of complex digital systems. | | | - DC
| EA 1.6 The student knows the basic principles of hardware description languages. | | | | - BC
| The student knows advanced constructs of modern hardware desciption languages | | | | - BC
| The student knows the use of advanced HDLs for simulation, test benches and synthesis. | - EC
| EC2 - The holder of the degree possesses general scientific and discipline-related engineering-technical insight in the basic concepts, methods, conceptual frameworks and interdependent relations of the specific domain. | | | - DC
| EA 2.5 The student has insight into the functionality of (advanced) digital components, signals and systems. | | | | - BC
| The student understands the design concepts of complex digital hardware systems | | | | - BC
| The student understands the impact of architectural decisions on the performance of complex digital systems | - EC
| EC3 - The holder of the degree is able to recognize problems independently and can take initiative to plan activities and perform accordingly. | | | - DC
| 3.2 The student can plan a technical-scientific project in a structured manner. | | | | - BC
| The student can initiate and plan the design of a complex digital system. | - EC
| EC4 - The holder of the degree can gather and obtain relevant scientific and/or technical information and/or he/she can measure the necessary information efficiently and conscientiously. Additionally, he/she can make correct references to information. | | | - DC
| 4.1 The student can look up scientific and/or technical information in a goal-oriented manner. | | | | - BC
| The student is able to acquire the necessary information for designing application specific complex digital systems. | - EC
| EC6 - The holder of the degree can select and use adequate solution methods to solve unknown, domain-specific problems and can work methodologically and make solid design choices. | | | - DC
| EA 6.6 The student can design an advanced digital system. | | | | - BC
| The student is able to make the necessary choices in system-on-chip complex digital system architectures and perform the design until the gate level digital hardware. | - EC
| EC9 - The holder of the degree can communicate with colleagues in oral and in written form (including in a graphical way) about domain-specific aspects in suited language making use of apt terminology. | | | - DC
| 9.1 The student is able to communicate in writing in a correct, structured and appropriate manner in languages relevant to their field of study.
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| The student is able to design, evaluate and adapt complex SoC architectures by means of simulation tools. | | | - DC
| 9.2 The student can communicate orally in a correct, structured and appropriate way in languages relevant to his field of study. | | | | - BC
| The student is able to discuss the architectural design and choices of computer hardware architectures. |
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| | EC = learning outcomes DC = partial outcomes BC = evaluation criteria |
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This course assumes familiarity with computer programming, basic knowledge of combinatorial and sequential digital systems, introductory concepts in microcontrollers, computer architectures and organization as well as basic knowledge of hardware description languages such as VHDL or Verilog
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This goal of this course is the insight and real application of knowledge and skills in the design and implementation of
complex digital design as used in System‑on‑Chip and FPGA design.
Contents:
·Advanced HDL (Hardware Description Language) based design, schematics design, simulation
·Advanced design of combinatorial and sequential digital circuits and systems
·Interfacing methods
·Design methods for reliable digital circuits and systems
·Management of clocks in digital systems
·Design Trajectory and Workflows
·Hands‑on experimentation
This course is organized in the form of application lectures and practical sessions. There will also be a project on which the student will work individually or in a small team.
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Application Lecture ✔
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Exercises ✔
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Homework ✔
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Presentation ✔
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Report ✔
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Period 2 Credits 6,00
| Evaluation method | |
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| Other evaluation method during teaching period | 100 % |
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| Other | Assignments and final project |
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| Transfer of partial marks within the academic year | ✔ |
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| Conditions transfer of partial marks within the academic year | There is only a transfer of the partial mark for the assignments. |
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Second examination period
| Evaluation second examination opportunity different from first examination opprt | |
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| Explanation (English) | No second chance for the assignments. The results from the first exam period will be transferred.
There is only a second chance for the final project. |
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| Compulsory course material |
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The necessary course material will be made available to the registered students via the electronic learning platform. |
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| Remarks |
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Situation within the curriculum / speciality: This course fits in the specializations: digital electronics and computer architectures. In this course, the practical design of digital electronic systems is being trained and applied. The emphasis is on the design of complex digital systems and their implementation in FPGAs.
Relation with the work field: Modern companies often require high throughput processing in their systems based on digital electronics. This course aims at the design of digital systems that are too demanding to be implemented with traditional microprocessors or microcontrollers.
Relation with research: this course builds on the research in the area of digital electronic systems, FPGA design, system on chip design and sensor systems. |
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| Bridging programme Electronics and ICT Engineering Technology - part 2 | Compulsory | 162 | 6,0 | 162 | 6,0 | Yes | Yes | Numerical | |
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This course assumes familiarity with computer programming, basic knowledge of combinatorial and sequential digital systems, introductory concepts in microcontrollers, computer architectures and organization as well as basic knowledge of hardware description languages such as VHDL or Verilog
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|
|
|
This goal of this course is the insight and real application of knowledge and skills in the design and implementation of
complex digital design as used in System‑on‑Chip and FPGA design.
Contents:
·Advanced HDL (Hardware Description Language) based design, schematics design, simulation
·Advanced design of combinatorial and sequential digital circuits and systems
·Interfacing methods
·Design methods for reliable digital circuits and systems
·Management of clocks in digital systems
·Design Trajectory and Workflows
·Hands‑on experimentation
This course is organized in the form of application lectures and practical sessions. There will also be a project on which the student will work individually or in a small team.
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|
Application Lecture ✔
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|
Exercises ✔
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Homework ✔
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Presentation ✔
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Report ✔
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Period 2 Credits 6,00
| Evaluation method | |
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| Other evaluation method during teaching period | 100 % |
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| Other | Assignments and final project |
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| Transfer of partial marks within the academic year | ✔ |
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| Conditions transfer of partial marks within the academic year | There is only a transfer of the partial mark for the assignments. |
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Second examination period
| Evaluation second examination opportunity different from first examination opprt | |
|
| Explanation (English) | No second chance for the assignments. The results from the first exam period will be transferred.
There is only a second chance for the final project. |
|
|
|
|
|
| Compulsory course material |
| |
The necessary course material will be made available to the registered students via the electronic learning platform. |
|
|
| Remarks |
| |
Situation within the curriculum / speciality: This course fits in the specializations: digital electronics and computer architectures. In this course, the practical design of digital electronic systems is being trained and applied. The emphasis is on the design of complex digital systems and their implementation in FPGAs.
Relation with the work field: Modern companies often require high throughput processing in their systems based on digital electronics. This course aims at the design of digital systems that are too demanding to be implemented with traditional microprocessors or microcontrollers.
Relation with research: this course builds on the research in the area of digital electronic systems, FPGA design, system on chip design and sensor systems. |
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| Exchange Programme Engineering Technology | Optional | 162 | 6,0 | 162 | 6,0 | Yes | Yes | Numerical | |
|
| |
|
|
This goal of this course is the insight and real application of knowledge and skills in the design and implementation of
complex digital design as used in System‑on‑Chip and FPGA design.
Contents:
·Advanced HDL (Hardware Description Language) based design, schematics design, simulation
·Advanced design of combinatorial and sequential digital circuits and systems
·Interfacing methods
·Design methods for reliable digital circuits and systems
·Management of clocks in digital systems
·Design Trajectory and Workflows
·Hands‑on experimentation
This course is organized in the form of application lectures and practical sessions. There will also be a project on which the student will work individually or in a small team.
|
|
|
|
|
|
|
|
|
Application Lecture ✔
|
|
|
|
|
|
|
|
Exercises ✔
|
|
|
|
Homework ✔
|
|
|
|
Presentation ✔
|
|
|
|
Report ✔
|
|
|
|
Period 2 Credits 6,00
| Evaluation method | |
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| Other evaluation method during teaching period | 100 % |
|
| Other | Assignments and final project |
|
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| Transfer of partial marks within the academic year | ✔ |
|
| Conditions transfer of partial marks within the academic year | There is only a transfer of the partial mark for the assignments. |
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|
|
|
|
|
Second examination period
| Evaluation second examination opportunity different from first examination opprt | |
|
| Explanation (English) | No second chance for the assignments. The results from the first exam period will be transferred.
There is only a second chance for the final project. |
|
|
|
|
|
| Compulsory course material |
| |
The necessary course material will be made available to the registered students via the electronic learning platform. |
|
|
| Remarks |
| |
Situation within the curriculum / speciality: This course fits in the specializations: digital electronics and computer architectures. In this course, the practical design of digital electronic systems is being trained and applied. The emphasis is on the design of complex digital systems and their implementation in FPGAs.
Relation with the work field: Modern companies often require high throughput processing in their systems based on digital electronics. This course aims at the design of digital systems that are too demanding to be implemented with traditional microprocessors or microcontrollers.
Relation with research: this course builds on the research in the area of digital electronic systems, FPGA design, system on chip design and sensor systems. |
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1 Education, Examination and Legal Position Regulations art.12.2, section 2. |
| 2 Education, Examination and Legal Position Regulations art.16.9, section 2. |
3 Education, Examination and Legal Position Regulations art.15.1, section 3.
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| Legend |
| SBU : course load | SP : ECTS | N : Dutch | E : English |
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