pdf

URI: https://gptkb.org/prop/pdf

91 triples

GPTKB property

Alternative names (6)

PDF • hasPDF • paper • paperUrl • pdfUrl • supportsPDF

Random triples

Subject	Object
gptkb:Natural_Questions:_A_Benchmark_for_Question_Answering_Research	https://arxiv.org/abs/1906.00300
gptkb:Landau_distribution	no closed-form expression
gptkb:Standard_Normal_Distribution	(1/√(2π)) * exp(-x²/2)
gptkb:chi-squared_distribution	(1/(2^{k/2}Γ(k/2))) x^{(k/2)-1} e^{-x/2}
gptkb:Pearson_Type_VII	f(x) = C [1 + ((x-μ)^2)/(m a^2)]^{-m}
gptkb:Beta_distribution	f(x; alpha, beta) = x^{alpha-1} (1-x)^{beta-1} / B(alpha, beta)
gptkb:Pearson_Type_V	f(x; a, b) = (b^a / Γ(a)) x^(-a-1) exp(-b/x)
gptkb:arXiv:1411.4028	https://arxiv.org/pdf/1411.4028.pdf
gptkb:PageWide_XL_8000	yes
gptkb:2004.05150	https://arxiv.org/pdf/1706.03762.pdf
gptkb:Pearson_Type_0	f(x) = (1/(σ√(2π))) * exp(- (x-μ)^2 / (2σ^2))
gptkb:Pearson_Type_IX_distribution	complex formula involving beta function
gptkb:Inverse_chi-squared_distribution	f(x; ν) = (2^{−ν/2}/Γ(ν/2)) x^{−(ν/2)−1} exp(−1/(2x))
gptkb:arXiv:1810.09434	https://arxiv.org/pdf/1810.09434.pdf
gptkb:Normal_distribution_(standard_parameterization)	f(x) = (1/(σ√(2π))) * exp(- (x-μ)^2 / (2σ^2))
gptkb:generalized_Pareto_distribution	f(x) = (1/c)(1 + b(x-bc)/c)^{-1/b-1}
gptkb:Johnson_SB_distribution	f(x) = (delta / (lambda * sqrt(2pi))) [1 / (y(1-y))] exp(-0.5 * [gamma + delta * ln(y/(1-y))]^2), where y = (x - xi)/lambda
gptkb:Pearson_Type_VI_distribution	f(x; α1, α2, β) = (x/β)^{α1-1} / [β B(α1, α2) (1 + x/β)^{α1+α2}] for x > 0
gptkb:DeepSeek-MoE	https://arxiv.org/abs/2405.13237
gptkb:arXiv:1412.6980	https://arxiv.org/pdf/1412.6980.pdf