ترجمة وتحليل الكلمات عن طريق الذكاء الاصطناعي ChatGPT
في هذه الصفحة يمكنك الحصول على تحليل مفصل لكلمة أو عبارة باستخدام أفضل تقنيات الذكاء الاصطناعي المتوفرة اليوم:
- كيف يتم استخدام الكلمة في اللغة
- تردد الكلمة
- ما إذا كانت الكلمة تستخدم في كثير من الأحيان في اللغة المنطوقة أو المكتوبة
- خيارات الترجمة إلى الروسية أو الإسبانية، على التوالي
- أمثلة على استخدام الكلمة (عدة عبارات مع الترجمة)
- أصل الكلمة
%ما هو (من)٪ 1 - تعريف
 fly over at Tokushima Air Base September 30, 2017 03.jpg?width=200){kind=spacer}
![3 P-1 above [[Mount Fuji]]](https://commons.wikimedia.org/wiki/Special:FilePath/3 JMSDF Kawasaki P-1 in flight with Mount Fuji in the background.jpg?width=200 "3 P-1 above [[Mount Fuji]]")
![A P-1 landing at [[RAF Fairford]], England, 2015](https://commons.wikimedia.org/wiki/Special:FilePath/5504-Kawasaki-P-1-Fairford2015-4685.jpg?width=200 "A P-1 landing at [[RAF Fairford]], England, 2015")
![Rear view of a P-1 at [[Iwakuni Air Base]], Japan, 2014](https://commons.wikimedia.org/wiki/Special:FilePath/JMSDF P-1(5506) Body rear in Iwakuni Air Base 20140914.JPG?width=200 "Rear view of a P-1 at [[Iwakuni Air Base]], Japan, 2014")
 which takes off from Iwakuni Air Base 20140914.JPG?width=200 "A P-1 just prior to landing, 2014")
.jpg?width=200 "View of the underside of a P-1 inflight, note the open bomb bay")
![P-1 with its US equivalent, the [[Boeing P-8 Poseidon]] in 2014](https://commons.wikimedia.org/wiki/Special:FilePath/P-8A of VP-5 and Japanese Kawasaki P-1 at NAF Atsugi in 2014.JPG?width=200 "P-1 with its US equivalent, the [[Boeing P-8 Poseidon]] in 2014")
ويكيبيديا
Pollard's p − 1 algorithm is a number theoretic integer factorization algorithm, invented by John Pollard in 1974. It is a special-purpose algorithm, meaning that it is only suitable for integers with specific types of factors; it is the simplest example of an algebraic-group factorisation algorithm.
The factors it finds are ones for which the number preceding the factor, p − 1, is powersmooth; the essential observation is that, by working in the multiplicative group modulo a composite number N, we are also working in the multiplicative groups modulo all of N's factors.
The existence of this algorithm leads to the concept of safe primes, being primes for which p − 1 is two times a Sophie Germain prime q and thus minimally smooth. These primes are sometimes construed as "safe for cryptographic purposes", but they might be unsafe — in current recommendations for cryptographic strong primes (e.g. ANSI X9.31), it is necessary but not sufficient that p − 1 has at least one large prime factor. Most sufficiently large primes are strong; if a prime used for cryptographic purposes turns out to be non-strong, it is much more likely to be through malice than through an accident of random number generation. This terminology is considered obsolete by the cryptography industry: ECM makes safe primes just as easy to factor as non-safe primes, so size is the important factor.
