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

91 triples

GPTKB property

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Subject	Object
gptkb:F-distribution	f(x; d1, d2) = [d1^{d1/2} d2^{d2/2} x^{(d1/2)-1}]/[B(d1/2, d2/2) (d1 x + d2)^{(d1+d2)/2}]
gptkb:inverse_gamma_distribution	f(x; α, β) = (β^α / Γ(α)) x^(-α-1) exp(-β/x)
gptkb:BERT_on_GLUE	gptkb:BERT:_Pre-training_of_Deep_Bidirectional_Transformers_for_Language_Understanding
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:standard_multivariate_normal_distribution	(2π)^(-n/2) exp(-1/2 x^T x)
gptkb:Nakagami_distribution	(2m^m)/(Γ(m)Ω^m) x^{2m-1} exp(-m x^2/Ω), x ≥ 0
gptkb:Onyx_Boox_Tab_Ultra_Air_Pro_10	yes
gptkb:DINOv2	https://arxiv.org/abs/2304.07193
gptkb:exponential_distribution	lambda * exp(-lambda * x)
gptkb:chi_distribution	(1/2^{k/2-1} Gamma(k/2)) x^{k-1} e^{-x^2/2}
gptkb:Log-gamma_distribution	f(x; μ, θ, k) = (1/Γ(k)θ^k) exp(k(x-μ)/θ - exp((x-μ)/θ))
gptkb:Onyx_Boox_Max_4	yes
gptkb:student's_t-distribution	f(x) = Γ((ν+1)/2) / (√(νπ) Γ(ν/2)) (1 + x²/ν)^(-(ν+1)/2)
gptkb:arXiv:1411.4028	https://arxiv.org/pdf/1411.4028.pdf
gptkb:uniform_distribution	1/(b-a) for a ≤ x ≤ b
gptkb:Onyx_Boox_Max_2	yes
gptkb:BERT_on_SQuAD	gptkb:BERT:_Pre-training_of_Deep_Bidirectional_Transformers_for_Language_Understanding
gptkb:chi-squared_distribution	(1/(2^{k/2}Γ(k/2))) x^{(k/2)-1} e^{-x/2}
gptkb:Pearson_Type_VI	f(x) = (a^m * x^{m-1}) / (B(m, n) * (a + x)^{m+n}) for x > 0
gptkb:YOLOX	https://arxiv.org/abs/2107.08430