Jtdx: 22160 Verified //top\\
Since this is a software release verification (Amateur Radio Digital Mode Software), the write-up typically takes the form of a Functional Test Report or an Installation Verification Log .
Subject: Functional Verification of JTDX v.22160 Date: [Insert Date] Operator/Tester: [Insert Name/Call Sign] System Specifications:
OS: Windows 10 / 11 (or Linux/Raspberry Pi) Audio Interface: [e.g., SignaLink USB, built-in sound card] Radio: [e.g., Icom IC-7300, Yaesu FT-991] CAT Control: Enabled via [e.g., Hamlib, Omni-Rig]
1. Installation & Initialization
Installation: The jt22160_win32.exe (or respective OS package) was installed successfully over the previous version (v22150). Configuration: Settings migrated correctly. No user intervention required for re-configuration of audio devices or CAT control. Startup Time: Application launched within expected parameters (approx. 3-5 seconds).
2. Decode Performance Verification The primary focus of this verification was the improved decoder logic claims for JT65 and JT9 modes.
Test Band: 14.076 MHz (20m) Conditions: Moderate fading (QSB) with static crashes. Sensitivity: jtdx 22160 verified
Weak signals (-24dB to -26dB) were decoded successfully. Notable improvement observed in "Bins depth" handling compared to the previous build. Decodes on sync tones that were previously missed by the baseline WSJT-X were visible in JTDX 22160.
Duplicate Decodes:
The software effectively filtered redundant decodes within the same cycle. Option: File->Settings->General->Duplicate decodes was tested in both On/Off states; toggle functioned correctly. Since this is a software release verification (Amateur
3. Features & Stability
TX Macro Handling: F1 through F12 function keys executed macros correctly. The "Generated text" TX behavior remained consistent with v22150 logic. GUI Responsiveness: Waterfall display (Wide Graph) rendered smoothly with no frame drops during heavy decoding periods (DX pile-up scenario). Memory Management: Application RAM usage remained stable (~80-120MB) over a 2-hour continuous operation period. No memory leaks detected.