File:Digits in largest prime found as a function of time.svg

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Summary

Description	English: Plot of the number of digits in largest known prime by year, since the electronic computer. Note that the vertical scale is logarithmic. The green line is the exponential curve of best fit that was followed roughly until 1999; the red curve is a linear fit, more accurate after 1999. Run the source code below to get actual Русский: График зависимости числа цифр в наибольшем известном простом числе по годам с момента появления первого компьютера. Вертикальная шкала логарифмическая. Зеленая линия - экспоненциальная кривая наилучшего приближения, которой примерно следовал рост числа цифр до 1999 года; красная кривая - это линейная аппроксимация, более точное приближение после 1999 г.
Date	13 September 2016
Source	Own work
Author	Nicoguaro
Other versions	int .png int .svg Chinese .svg English .svg Russian .svg
SVG development InfoField	The SVG code is valid. This plot was created with Matplotlib.
Source code InfoField	Python code import numpy as np import matplotlib.pyplot as plt from scipy.optimize import curve_fit from matplotlib import rcParams rcParams['font.size'] = 14 # Data data = np.array([[ 1952, 1952, 1957, 1961, 1961, 1963, 1963, 1971, 1978, 1979, 1979, 1982, 1983, 1985, 1989, 1992, 1994, 1996, 1996, 1997, 1998, 1999, 2001, 2003, 2004, 2005, 2005, 2006, 2008, 2013, 2016, 2017, 2018, 2024], [ 157, 687, 969, 1281, 1332, 2917, 3376, 6002, 6533, 6987, 13395, 25962, 39751, 65050, 65087, 227832, 258716, 378632, 420921, 895932, 909526, 2098960, 4053946, 6320430, 7235733, 7816230, 9152052, 9808358, 12978189, 17425170, 22338618, 23249425, 24862048, 41024320]]) year = data[0, :] primes = data[1, :] year_of_lin_growth = 1999 plt.plot(year, primes, color="#377eb8", marker=".", drawstyle='steps-post') plt.yscale('log') # Fit function def lin_fun(x, a, b): return ax + b def exp_fun(x, a, b): return np.exp(ax + b) ## Plot the older part which follows exponential growth of digits with time popt, pcov = curve_fit(lin_fun, year[year <= year_of_lin_growth], np.log(primes[year <= year_of_lin_growth])) x_vals = np.linspace(np.min(year), year_of_lin_growth, 20) y_vals = exp_fun(x_vals, popt) plt.plot(x_vals, y_vals, color="#1ae41c", linestyle="dashed", label='digit number doubling every {:.1f} y'.format(np.log(2)/popt[0])) print('Exponential fit (green curve): y = exp({:.4f} t + {:.4f})'.format(popt)) year_of_lin_growth = 1998 ## Plot the newer part which follows linear growth of digits with time popt, pcov = curve_fit(lin_fun, year[year >= year_of_lin_growth], primes[year >= year_of_lin_growth]) x_vals = np.linspace(year_of_lin_growth, np.max(year), 100) y_vals = lin_fun(x_vals, popt) plt.plot(x_vals, y_vals, color="#e41a1c", linestyle="dashed", label='digit number growing by $10^6$ every {:.2f} y'.format(1e6/popt[0])) print('Linear fit (red curve): y = {:.4g} * t + {:.4g}'.format(*popt)) # Plot details plt.legend(prop={'size':10}) plt.xlabel("Year") plt.ylabel("Number of digits in largest known prime") plt.savefig("Digits_in_largest_found_prime_as_a_function_of_time.svg", bbox_inches="tight") plt.show()

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File history

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	Date/Time	Dimensions	User	Comment
current	03:01, 27 October 2024	614 × 461 (52 KB)	JrandWP	Update M136279841, discovered in 2024
	12:09, 22 August 2020	540 × 408 (59 KB)	Gap9551	fixed error in linear rate (red line fit) in legend
	11:46, 22 August 2020	540 × 408 (59 KB)	Gap9551	Reverted to version as of 11:22, 22 August 2020 (UTC) file appears fine now
	11:39, 22 August 2020	540 × 408 (59 KB)	Gap9551	another attempt to upload file with 4.3 yr doubling time. the previous upload did not overwrite the existing file.
	11:22, 22 August 2020	540 × 408 (59 KB)	Gap9551	doubling time fixed in legend
	13:17, 24 June 2020	540 × 409 (56 KB)	FDominec	Updated datasets to 2020; added exponential and linear portions of the curve fit.
	20:30, 13 September 2016	659 × 504 (63 KB)	Nicoguaro	User created page with UploadWizard