Update MICRO description (#1878)

docs/conferenceDescriptions/micro24TutorialDescription.md

@@ -21,30 +21,26 @@ Prerequisite: Please bring your laptop so that you can SSH into our Ryzen™ AI-
 
 | Time | Topic | Presenter | Slides or Code |
 |------|-------|-----------|----------------|
-| 08:30am | Intro to spatial compute and explicit data movement | Kristof | [Programming Guide](../../programming_guide/) |
-| 08:45am | "Hello World" from Ryzen™ AI | Joe | [AI Engine Basic Building Blocks](../../programming_guide/section-1/) |
-| 09:00am | Data movement on Ryzen™ AI with objectFIFOs | Joe | [Data Movement](../../programming_guide/section-2/) |
-| 09:30am | Your First Program | Kristof | [My First Program](../../programming_guide/section-3) |
-| 09:50am | Exercise 1: Build and run your first program | All | [Passthrough](../../programming_examples/basic/passthrough_kernel/) |
-| 10:00am | Break | | |
-| 10:30am | Exercise 2: Vector-Scalar Mul | All | [Vector Scalar Mul](../../programming_examples/basic/vector_scalar_mul/) |
-| 10:40am | Tracing and performance analysis | Jack | [Timers](../../programming_guide/section-4/section-4a/) and [Tracing](../../programming_guide/section-4/section-4b/) |
-| 11:10am | Exercise 3: Tracing vector-scalar | All | [Vector Scalar Mul](../../programming_examples/basic/vector_scalar_mul/) |
-| 11:30am | Vectorizing on AIE | Jack | [Kernel Vectorization](../../programming_guide/section-4/section-4c/) |
-| 11:40am | Exercise 4: Vectorized vector-scalar | All | [Vector Scalar Mul](../../programming_examples/basic/vector_scalar_mul/) |
-| 12:00pm | Dataflow and larger designs | Joe | [Example Vector Designs](../../programming_guide/section-5/) and [Large Example Designs](../../programming_guide/section-6/) |
-| 12:15pm | Exercises | All | [Programming Examples](../../programming_examples/) |
-| 12:30pm | Close Tutorial | All | |
+| 08:00am | Intro to spatial compute and explicit data movement | Kristof | [Programming Guide](../../programming_guide/) |
+| 08:15am | "Hello World" from Ryzen™ AI | Joe | [AI Engine Basic Building Blocks](../../programming_guide/section-1/) |
+| 08:30am | Data movement on Ryzen™ AI with objectFIFOs | Joe | [Data Movement](../../programming_guide/section-2/) |
+| 09:00am | Your First Program | Kristof | [My First Program](../../programming_guide/section-3) |
+| 09:20am | Exercise 1: Build and run your first program | All | [Passthrough](../../programming_examples/basic/passthrough_kernel/) |
+| 09:30am | Break | | |
+| 10:00am | Exercise 2: Vector-Scalar Mul | All | [Vector Scalar Mul](../../programming_examples/basic/vector_scalar_mul/) |
+| 10:10am | Tracing and performance analysis | Kristof | [Timers](../../programming_guide/section-4/section-4a/) and [Tracing](../../programming_guide/section-4/section-4b/) |
+| 10:40am | Exercise 3: Tracing vector-scalar | All | [Vector Scalar Mul](../../programming_examples/basic/vector_scalar_mul/) |
+| 10:50am | Vectorizing on AIE | Kristof | [Kernel Vectorization](../../programming_guide/section-4/section-4c/) |
+| 11:10am | Exercise 4: Vectorized vector-scalar | All | [Vector Scalar Mul](../../programming_examples/basic/vector_scalar_mul/) |
+| 11:20pm | Dataflow and larger designs | Joe | [Example Vector Designs](../../programming_guide/section-5/) and [Large Example Designs](../../programming_guide/section-6/) |
+| 11:30pm | Exercises | All | [Programming Examples](../../programming_examples/) |
+| 11:50pm | Close Tutorial | All | |
 
 
 ## Organizers
 
-*Jack Lo* is a Senior Member of Technical Staff in AMD’s Research and Advanced Development group. At AMD, he is focused on developing tool frameworks and optimizing applications for current and future AMD devices, particularly in the area of adaptive computing and AI processing. 
-
 *Joseph Melber* is a Senior Member of Technical Staff in AMD’s Research and Advanced Development group. At AMD, he is working on hardware architectures and compiler technologies for current and future AMD devices. He received a BS in electrical engineering from the University Buffalo, as well as MS and PhD degrees from the electrical and computer engineering department at Carnegie Mellon University. His research interests include runtime systems, compiler abstractions for data movement, and hardware prototypes for future adaptive heterogeneous computing architectures.
 
-*Andrew Schmidt* is a Senior Member of Technical Staff in the AMD University Program.  At AMD, he provides tutorials, training workshops and engages with universities across undergraduate and graduate curriculum, as well as research projects.  The AMD University Program offers researchers access to state-of-the-art hardware through various programs including the HPC Fund, HACC program, and donation program and offers professors and lecturers free software licenses and educational resources to support classroom teaching.  He has extensive background on adaptive computing acceleration with heterogenous architectures, previously working at the University of Southern California’s Information Sciences Institute where his focus was on reconfigurable computing, computer architecture, and hardware assurance.  He received his BS and MS in Computer Engineering from the University of Kansas and his PhD in Electrical Engineering from the University of North Carolina at Charlotte where his focus was on efficient utilization of heterogenous resources for High Performance Reconfigurable Computing.
-
 *Kristof Denolf* is a Fellow in AMD's Research and Advanced Development group where he is working on energy-efficient computer vision and video processing applications to shape future AMD devices. He earned an M.Eng. in electronics from the Katholieke Hogeschool Brugge-Oostende (1998), now part of KULeuven, an M.Sc. in electronic system design from Leeds Beckett University (2000), and a Ph.D. from the Technical University Eindhoven (2007). He has over 25 years of combined research and industry experience at IMEC, Philips, Barco, Apple, Xilinx, and AMD. His main research interests are all aspects of the cost-efficient and dataflow-oriented design of video, vision, and graphics systems.
 
-*Phil James-Roxby* is a Senior Fellow in AMD’s Research and Advanced Development group, working on compilers and runtimes to support current and future AMD devices, particularly in the domain of AI processing.  In the past, he has been responsible for a number of software enablement activities for hardware devices, including SDNet and SDAccel at Xilinx, and the original development environment for the AI Engines.  He holds a PhD from the University of Manchester on hardware acceleration of embedded machine learning applications, and his main research interest continues to be how to enable users to efficiently use diverse hardware in heterogeneous systems.
+*Andrew Schmidt* is a Senior Member of Technical Staff in the AMD University Program.  At AMD, he provides tutorials, training workshops and engages with universities across undergraduate and graduate curriculum, as well as research projects.  The AMD University Program offers researchers access to state-of-the-art hardware through various programs including the HPC Fund, HACC program, and donation program and offers professors and lecturers free software licenses and educational resources to support classroom teaching.  He has extensive background on adaptive computing acceleration with heterogenous architectures, previously working at the University of Southern California’s Information Sciences Institute where his focus was on reconfigurable computing, computer architecture, and hardware assurance.  He received his BS and MS in Computer Engineering from the University of Kansas and his PhD in Electrical Engineering from the University of North Carolina at Charlotte where his focus was on efficient utilization of heterogenous resources for High Performance Reconfigurable Computing.