- Created `tb_volume_multiplier_behav.wcfg` for waveform configuration of the volume multiplier testbench.
- Added `volume_multiplier.xpr` project file for the volume multiplier design.
- Created `volume_saturator.xpr` project file for the volume saturator design.
- Added `volume_saturator_tb_behav.wcfg` for waveform configuration of the volume saturator testbench.
- Updated the date in the diligent_jstk_wrapper.vhd file.
- Modified the testbench (tb_digilent_jstk2.vhd) to ensure proper data transmission and added a delay to simulate real response time.
- Adjusted the digilent_jstk2.vhd file to refine the state machine logic for sending and receiving data, including a new IDLE state and improved handling of the SPI communication.
- Enhanced uart_viewer.py to automatically detect the Basys3 board's serial port, improving user experience and reducing configuration errors.
- Updated the Vivado project file (diligent_jstk.xpr) to reflect changes in simulation and synthesis settings, ensuring compatibility with the latest design updates.
- Created board.xit for physical constraints related to UART interface.
- Added vv_index.xml to define the AXI4-Stream UART IP with relevant metadata.
- Implemented GUI for AXI4-Stream UART parameters in AXI4Stream_UART_v1_0.tcl and AXI4Stream_UART_v1_1.tcl.
- Initialized Vivado project files for diligent_jstk and loopback_I2S designs, including synthesis and implementation settings.
- Configured file sets and simulation options for both projects.
- Created a new Block Design Archive (lab_3.bda) for LAB3, defining nodes and edges for the design.
- Added a placeholder README file in the simulation directory.
- Initialized a Vivado project file (lab3.xpr) with configuration settings and source files for synthesis and simulation.
- Updated vhdl_ls.toml to include LAB3 source and simulation files for VHDL language server support.
- Created LFO entity for low-frequency oscillation control.
- Added all_pass_filter entity for signal processing.
- Implemented balance_controller for audio balance adjustments.
- Developed debouncer to stabilize input signals.
- Introduced digilent_jstk2 for joystick data handling.
- Added edge_detector_toggle for edge detection functionality.
- Created effect_selector to manage audio effects based on joystick input.
- Implemented jstk_uart_bridge for communication between joystick and UART.
- Developed led_controller for LED management.
- Introduced led_level_controller for controlling multiple LEDs.
- Created moving_average_filter for smoothing input signals.
- Added moving_average_filter_en with enable functionality.
- Implemented mute_controller to handle mute functionality.
- Developed volume_controller for volume adjustments.
- Introduced volume_multiplier for scaling audio signals.
- Created volume_saturator to ensure audio signals stay within bounds.
- Created a new loopback design file (loopback.bda) with nodes and edges defined in GraphML format.
- Added a new Vivado project file for loopback (loopback.xpr) with updated configurations.
- Introduced a new testbench for image convolution (img_conv_tb.vhd) in the simulation sources.
- Updated the main project file (lab2.xpr) to reflect changes in source files and top module for simulation.
- Removed obsolete project files (pak_depak.xpr.zip) and updated paths for existing source files.
- Updated node connections in lab_2.bda and pak_depak.bda to correct source and target references.
- Modified pak_depak_wrapper.vhd to reflect the correct timestamp.
- Rearranged the order of components in pak_depak.bd for clarity and consistency.
- Adjusted BRAM writer logic in bram_writer.vhd for improved data handling and comments for clarity.
- Enhanced depacketizer.vhd with additional comments and logic adjustments for better data reception.
- Refined divider_by_3.vhd to optimize division calculations and improve clarity in comments.
- Improved img_conv.vhd with better state management and comments for the convolution process.
- Updated led_blinker.vhd to enhance readability and maintainability with clearer comments.
- Enhanced packetizer.vhd to improve data handling and added comments for better understanding.
- Adjusted rgb2gray.vhd to include standard library comments for consistency.
- Updated test.py to improve image processing logic and added visualization for differences.
- Added new binary files for test_nopath.exe and archived project files for lab2 and pak_depak.
- Updated Vivado project files to ensure correct paths and settings for synthesis and implementation.
- Modified the graph structure in pak_depak.bda to correct node and edge connections.
- Adjusted testbench for packetizer (tb_packetizer.vhd) to fix data values and packet sizes.
- Enhanced packetizer.vhd to manage footer sending based on last signal.
- Removed obsolete executable file LAB2-Test_new.exe.
- Updated Python test script (test.py) to include new test case for depack > pack functionality and improved image handling.
- Altered Vivado project files to reflect changes in simulation and synthesis settings.
- Deleted unnecessary test executable and added new image for depack > pack testing.
- Removed obsolete GraphML file `pak_depak.bda` and UI file `bd_c9b29a54.ui`.
- Updated `rgb2gray.vhd` to improve signal handling and state machine logic.
- Created new Vivado project files for `depacketizer_test`, including testbench configuration.
- Adjusted `pak_depak.xpr` to disable the FIFO module and set the top module correctly.
- Updated `rgb2grey_test.xpr` to modify simulation launch settings.
- Created new design file `pak_depak.bd` with components including `proc_sys_reset`, `clk_wiz`, `AXI4Stream_UART`, `depacketizer`, and `packetizer`.
- Added associated architecture file `pak_depak.bda` for design representation.
- Introduced UI configuration file `bd_c9b29a54.ui` for graphical representation of the design.
- Updated project file `lab2.xpr` to replace references to old source files with new ones.
- Added new project file `pak_depak.xpr` for the pak_depak design with necessary configurations and file sets.
