zulip/tools/screenshots/for-events.json

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[
{
"recipient_type": "channel",
"channel": "Session 2 Keynote",
"color": "#C6A8AD",
"topic": "slides and presentation",
"users": {
"Dal Kim": {},
"Kevin Lin": {},
"John Lin": {}
},
"messages": [
{
"sender": "Dal Kim",
"content": "Welcome everyone! Here are the slides for the keynote talk: [keynote-slides.ppt](#). Don't forget to join for a live presentation at <time:2024-05-22T17:00:00+05:30>!",
"starred": true,
"reactions": {
"+1": ["Iago", "Kevin Lin", "John Lin"],
"tada": ["John Lin", "Kevin Lin"]
},
"date": {"year": 2024, "month": 5, "day": 21, "hour": 13, "minute": 45}
},
{
"sender": "Dal Kim",
"content": "Join now for the Keynote presentation!\nWe'll be using this stream for Q&A.\n\n[Join video call.](#)",
"date": {"year": 2024, "month": 5, "day": 21, "hour": 17, "minute": 0}
}
],
"screenshot": "static/images/landing-page/events/your_communication_hub_day_1.png"
},
{
"recipient_type": "channel",
"channel": "general",
"color": "#9987E1",
"topic": "conference feedback",
"users": {
"James Williams": {}
},
"messages": [
{
"sender": "James Williams",
"content": "As we are wrapping up, let us know what you enjoyed the most about this conference.",
"date": {"year": 2024, "month": 5, "day": 21, "hour": 20, "minute": 50}
},
{
"sender": "James Williams",
"content": "/poll What did you like the best?\nKeynote address\nLightning talks\nUsing Zulip",
"date": {"year": 2024, "month": 5, "day": 21, "hour": 20, "minute": 55}
}
],
"screenshot": "static/images/landing-page/events/your_communication_hub_day_2.png"
},
{
"recipient_type": "channel",
"channel": "Day 2: Intro to RSA",
"color": "#94C849",
"topic": "factorization algorithms",
"users": {
"Manvir Singh": {},
"Zoe Davis": {},
"Maxy Stert": {}
},
"messages": [
{
"sender": "Manvir Singh",
"content": "You could use [Pollard's rho algorithm](#), which factors a number n in time $$O(n^{\\frac{1}{4}})$$, faster than trial division:\n\n```python\ndef pollard_rho(n: int) -> int:\n g = lambda x: (x ** 2 + 1) % n\n x, y, d = 2, 2, 1\n while d == 1:\n x, y = g(x), g(g(y))\n d = math.gcd(x - y, n)\n return d\n```",
"reactions": {
"+1": ["Zoe Davis"]
},
"date": {"year": 2024, "month": 5, "day": 14, "hour": 16, "minute": 59}
},
{
"sender": "Zoe Davis",
"content": "The fastest known algorithm is the general number field sieve, which heuristically runs in time:\n```math\n\\exp\\left(\\left(\\sqrt[3]{\\frac{64}{9}} + o(1)\\right)(\\ln n)^{\\frac{1}{3}} (\\ln\\ln n)^{\\frac{2}{3}}\\right)\n```\n However, it is much more complicated.",
"reactions": {
"runner": ["Manvir Singh"],
"thinking": ["Maxy Stert", "Iago"]
},
"date": {"year": 2024, "month": 5, "day": 14, "hour": 18, "minute": 19}
}
],
"screenshot": "static/images/landing-page/events/message_formatting_day.png"
}
]