ECE Tutoring

Are you interested in tutoring? Or being tutored? Sign up below for either option!

Apply to be an ECE Undergraduate TutorVolunteer Tutor Sign Up - Industry and Alumni
classroom image

Are you a current student who needs a Tutor? Reach out to a tutor below to schedule a tutoring session

Note: Please reach out at least 24 hours in advance to schedule a tutoring session.

Tutor Name Courses Major Email Office Hours
Eamon Goff ENEE245, ENNE322, ENEE350 Computer Engineering egoff1@terpmail.umd.edu

Thursdays 5-7pm, AVW Lounge (room 1369)

Zoom Link:  https://us05web.zoom.us/j/5933992267?pwd=RXN1Q2VHOXJ1dXJPaFpmMzZ4UkFIQT09
Mats De Lausnay ENEE222, ENEE324, ENEE382 Electrical Engineering mdelausn@terpmail.umd.edu

Tuesdays 6-8pm, AVW Lounge (room 1369)

Zoom Link: https://us04web.zoom.us/j/2502695580?pwd=M0k1S1IvQmVoSUxNT0ZhS0VjUUt5Zz09
Lincoln Vandegriff

ENEE245, ENEE304, ENEE322

 Electrical Engineering lincolnv@terpmail.umd.edu

Wednesdays 6-8pm, AVW Lounge (room 1369)

Zoom Link:  https://umd.zoom.us/j/99855045590?pwd=0Xg23p1luKrhvXubZ6JMeyjLpbz5vO.1

Meeting ID: 998 5504 5590
Passcode: 497119

*If you need tutoring for any 300 or 400-level not listed above, please reach out to eceadvise@umd.edu or your assigned academic advisor.

*Please note, several of the ENEE101-244 courses have Undergraduate Teaching Fellows available to help. If you need further assistance, please reach out to eceadvise@umd.edu or your assigned academic advisor.

Course Tutoring Requests specifically for ECE Alumni:

Examination of analog and digital device models for analysis, design, and simulation of transistor level electronic circuits, emphasizing Metal Oxide Silicon Field Effect Transistors (MOSFETs); fundamental single transistor configurations; frequency response, feedback, and stability of multi-transistor circuits, such as current mirrors, differential amplifiers, voltage references, operational amplifiers and data converters; complementary Metal Oxide Silicon (CMOS) implementations of static and clocked digital as well as mixed signal circuits.

Course Description

Hardware design of digital computers. Arithmetic and logic units, adders, multipliers and dividers. Floating-point arithmetic units. Bus and register structures. Control units, both hardwired and microprogrammed. Index registers, stacks, and other addressing schemes. Interrupts, DMA and interfacing.

Course Description

Theoretical and practical aspects of computer systems security. Topics covered include symmetric/asymmetric encryption, message authentication, digital signatures, access control, as well as network security, web security and cloud security. Students acquire tools necessary for designing secure computer systems and programs and for defending against malicious threats (e.g., viruses, worms, denial of service).

Course Description


Top