MediaWiki API result
This is the HTML representation of the JSON format. HTML is good for debugging, but is unsuitable for application use.
Specify the format parameter to change the output format. To see the non-HTML representation of the JSON format, set format=json.
See the complete documentation, or the API help for more information.
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{
"logid": 229,
"ns": 0,
"title": "EE229 2025 Activity 02",
"pageid": 142,
"logpage": 142,
"params": {},
"type": "create",
"action": "create",
"user": "Louis Alarcon",
"timestamp": "2025-02-19T05:23:44Z",
"comment": "Created page with \"EE229 Activity 2: '''Nonlinearity''' (Due: Friday, 3/07, 5pm) * '''Instructions''': This activity a two-part problem, and you are expected to create a Google Colab file that contains your analysis and calculations, schematic, SPICE netlist, and simulation results. Please refer to this sample template. Should you have any questions, clarifications, or issues, please contact your instructor as soon as possible.\""
},
{
"logid": 228,
"ns": 0,
"title": "EE229 2025 Activity 01",
"pageid": 141,
"logpage": 141,
"params": {},
"type": "create",
"action": "create",
"user": "Louis Alarcon",
"timestamp": "2025-02-13T07:53:03Z",
"comment": "Created page with \"EE229 Activity 1: '''Passive Matching Networks''' * '''Instructions''': This activity has two design problems, and you are expected to create a Google Colab file that contains your analysis and calculations, schematic, SPICE netlist, and simulation results. Please refer to this sample Google Colab template. Should you have any questions, clarifications, or issues, please contact your instructor as soon as possible. ** If you are new to ngspice, please visit the ngspi...\""
},
{
"logid": 227,
"ns": 0,
"title": "Introduction to Microfabrication and MEMS (January 2025)",
"pageid": 140,
"logpage": 140,
"params": {},
"type": "create",
"action": "create",
"user": "Theresa De Leon",
"timestamp": "2025-01-30T04:41:32Z",
"comment": "Created page with \"'''ECE 197U / EE 298U Introduction to Microfabrication and MEMS''' * 2nd Semester AY 2024-2025 * 3 units lecture, 1 unit laboratory == Course Description == ECE 197U / EE 298U is designed to introduce students to the fundamentals of microfabrication and its applications in integrated circuits (ICs) and microelectromechanical systems (MEMS). The lectures discuss the theories behind standard microfabrication processes. The laboratory class then demonstrates these theories...\""
},
{
"logid": 226,
"ns": 0,
"title": "Digital Systems Testing (January 2025)",
"pageid": 139,
"logpage": 139,
"params": {},
"type": "create",
"action": "create",
"user": "Anastacia Alvarez",
"timestamp": "2025-01-23T03:36:06Z",
"comment": "Created page with \"*'''Digital Systems Testing''' *Second Semester AY 2024-2025 **Synchronous classes will be held Thursdays 6-9 PM **Refer to the [https://our.upd.edu.ph/files/calendar/regular/ACAD%20CAL%202024-2025.pdf#page=3 UP Diliman Academic Calendar] for relevant dates and holidays. *Course Credit: 3 units (3 hours lecture) ==Catalog Description== Test economics and motivation.\u00a0 Fault models and simulation.\u00a0 Test pattern generation.\u00a0 Measures for testability.\u00a0 Design for testab...\""
},
{
"logid": 225,
"ns": 0,
"title": "RF IC Design (January 2025)",
"pageid": 138,
"logpage": 138,
"params": {},
"type": "create",
"action": "create",
"user": "Louis Alarcon",
"timestamp": "2025-01-17T06:00:35Z",
"comment": "Created page with \"* '''Radio-Frequency Integrated Circuits''' * Semester Offered: 1st semester * Course Credit: Lecture: 3 units == Catalog Description == '''EE229''': Introduction to RF and wireless technology. Characteristics of passive devices at RF. High-frequency amplifier design. Analysis of distortion in amplifiers. Low-noise amplifiers and mixers. Oscillators. Frequency synthesizers. Power amplifiers. Phased-locked loops. Modulators and demodulators. Transceiver architectures. Pr...\""
},
{
"logid": 224,
"ns": 0,
"title": "EE220 2024 Noise Analysis and Simulation",
"pageid": 137,
"logpage": 137,
"params": {},
"type": "create",
"action": "create",
"user": "Louis Alarcon",
"timestamp": "2024-10-01T23:10:51Z",
"comment": "Created page with \"* '''Instructions''': This activity is structured as a tutorial with an activity at the end. Should you have any questions, clarifications, or issues, please contact your instructor as soon as possible. * At the end of this activity, the student should be able to: # Perform noise simulations using NGSPICE. == Activity 1: NMOS Noise == Bias a 0.8V SLVT NMOS transistor with <math>V_{GS}=0.4\\mathrm{V}</math> and <math>V_{DS}=0.4\\mathrm{V}</math>. For a width of <math>1\\ma...\""
},
{
"logid": 223,
"ns": 0,
"title": "Digital IC Design (August 2024)",
"pageid": 136,
"logpage": 136,
"params": {},
"type": "create",
"action": "create",
"user": "Anastacia Alvarez",
"timestamp": "2024-09-01T07:11:40Z",
"comment": "Created page with \"* First Semester AY 2024-2025 ** Synchronous classes will be held Tuesdays 6-9 PM ** Refer to the [https://upd.edu.ph/academics/academic-calendar-2/ UP Diliman Academic Calendar] for relevant dates and holidays. * Course Credit: 4 units (3 units lecture, 1 unit lab) == Catalog Description == Fundamentals of MOSFETS. Technology and modelling. Scaling and limits of scaling. Design for deep-submicron CMOS \u2013 high speed. Design techniques for low power. Arithmetic circui...\""
},
{
"logid": 222,
"ns": 0,
"title": "Analog IC Design (August 2024)",
"pageid": 135,
"logpage": 135,
"params": {},
"type": "create",
"action": "create",
"user": "WikiSysop",
"timestamp": "2024-08-19T08:11:15Z",
"comment": "Created page with \"* '''Analog Integrated Circuits''' * First Semester AY 2024-2025 ** Classes will be held 20 Aug 2024 - 04 Dec 2024 ** Refer to the [https://our.upd.edu.ph/files/calendar/regular/ACAD%20CAL%202024-2025.pdf UP Diliman Academic Calendar] for relevant dates and holidays. * Course Credit: Lecture: 4 units (3 units lecture, 1 unit lab) * Lectures: Wednesdays, 7:00am - 10:00am == Catalog Description == Integrated circuit devices and modeling. Noise analysis and modeling. Revi...\""
},
{
"logid": 221,
"ns": 0,
"title": "Project Discussion",
"pageid": 134,
"logpage": 134,
"params": {},
"type": "create",
"action": "create",
"user": "Anastacia Alvarez",
"timestamp": "2024-04-24T00:30:53Z",
"comment": "Created page with \"For your EE 227 project, each group/individual will be implementing a different design. Undergraduates are allowed to implement the project in groups of 2 or 3. Individual projects are also allowed. For graduate students, projects will be individual. Some possible projects (for undergrads): * 8- or 16- bit processor * image filtering * other encryption/decryption algorithms\""
},
{
"logid": 220,
"ns": 0,
"title": "Lab 4: Sequential Design",
"pageid": 133,
"logpage": 133,
"params": {},
"type": "create",
"action": "create",
"user": "Anastacia Alvarez",
"timestamp": "2024-04-22T05:04:33Z",
"comment": "Created page with \"In this exercise, we will complete our design of the LiCi encryption. Below are the general steps we will be following: * Using the keygen design from Lab 2, we will re-synthesize it using the sky130nm following the procedure in Lab 3. * Design the whole system, using our keygen, LiCi round and counter. * Synthesize the design with and without constraints\""
}
]
}
}