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diff --git a/indra/newview/app_settings/shaders/class1/gltf/pbrmetallicroughnessV.glsl b/indra/newview/app_settings/shaders/class1/gltf/pbrmetallicroughnessV.glsl
new file mode 100644
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+++ b/indra/newview/app_settings/shaders/class1/gltf/pbrmetallicroughnessV.glsl
@@ -0,0 +1,262 @@
+/**
+ * @file pbrmetallicroughnessV.glsl
+ *
+ * $LicenseInfo:firstyear=2024&license=viewerlgpl$
+ * Second Life Viewer Source Code
+ * Copyright (C) 2022, Linden Research, Inc.
+ *
+ * This library is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU Lesser General Public
+ * License as published by the Free Software Foundation;
+ * version 2.1 of the License only.
+ *
+ * This library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
+ * Lesser General Public License for more details.
+ *
+ * You should have received a copy of the GNU Lesser General Public
+ * License along with this library; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
+ *
+ * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
+ * $/LicenseInfo$
+ */
+
+// GLTF pbrMetallicRoughness implementation
+
+uniform mat4 modelview_matrix;
+
+#ifdef HAS_SKIN
+uniform mat4 projection_matrix;
+#else
+uniform mat3 normal_matrix;
+uniform mat4 modelview_projection_matrix;
+#endif
+
+uniform vec4[2] texture_base_color_transform;
+uniform vec4[2] texture_normal_transform;
+uniform vec4[2] texture_metallic_roughness_transform;
+uniform vec4[2] texture_emissive_transform;
+uniform vec4[2] texture_occlusion_transform;
+
+in vec3 position;
+in vec4 diffuse_color;
+in vec2 texcoord0;
+out vec2 base_color_uv;
+out vec2 emissive_uv;
+out vec4 vertex_color;
+out vec3 vary_position;
+
+#ifndef UNLIT
+in vec3 normal;
+in vec4 tangent;
+out vec2 normal_uv;
+out vec2 metallic_roughness_uv;
+out vec2 occlusion_uv;
+out vec3 vary_tangent;
+flat out float vary_sign;
+out vec3 vary_normal;
+#endif
+
+#ifdef MULTI_UV
+in vec2 texcoord1;
+uniform int base_color_texcoord;
+uniform int emissive_texcoord;
+#ifndef UNLIT
+uniform int normal_texcoord;
+uniform int metallic_roughness_texcoord;
+uniform int occlusion_texcoord;
+#endif
+#endif
+
+vec2 gltf_texture_transform(vec2 texcoord, vec4[2] p)
+{
+    texcoord.y = 1.0 - texcoord.y;
+
+    vec2 Scale = p[0].xy;
+    float Rotation = -p[0].z;
+    vec2 Offset = vec2(p[0].w, p[1].x);
+
+    mat3 translation = mat3(1,0,0, 0,1,0, Offset.x, Offset.y, 1);
+    mat3 rotation = mat3(
+        cos(Rotation), sin(Rotation), 0,
+        -sin(Rotation), cos(Rotation), 0,
+        0, 0, 1);
+
+    mat3 scale = mat3(Scale.x,0,0, 0,Scale.y,0, 0,0,1);
+
+    mat3 matrix = translation * rotation * scale;
+
+    vec2 uvTransformed = ( matrix * vec3(texcoord.xy, 1) ).xy;
+
+    uvTransformed.y = 1.0 - uvTransformed.y;
+
+    return uvTransformed;
+}
+
+#ifndef UNLIT
+vec3 gltf_tangent_space_transform(vec4 vertex_tangent, vec3 vertex_normal, vec4[2] khr_gltf_transform)
+{ //derived from tangent_space_transform in textureUtilV.glsl
+    vec2 weights = vec2(0, 1);
+
+    // Convert to left-handed coordinate system
+    weights.y = -weights.y;
+
+    // Apply KHR_texture_transform (rotation only)
+    float khr_rotation = khr_gltf_transform[0].z;
+    mat2 khr_rotation_mat = mat2(
+        cos(khr_rotation),-sin(khr_rotation),
+        sin(khr_rotation), cos(khr_rotation)
+    );
+    weights = khr_rotation_mat * weights;
+
+    // Convert back to right-handed coordinate system
+    weights.y = -weights.y;
+
+    // Similar to the MikkTSpace-compatible method of extracting the binormal
+    // from the normal and tangent, as seen in the fragment shader
+    vec3 vertex_binormal = vertex_tangent.w * cross(vertex_normal, vertex_tangent.xyz);
+
+    return (weights.x * vertex_binormal.xyz) + (weights.y * vertex_tangent.xyz);
+
+    return vertex_tangent.xyz;
+}
+#endif
+
+
+
+#ifdef ALPHA_BLEND
+out vec3 vary_fragcoord;
+#endif
+
+#ifdef HAS_SKIN
+in uvec4 joint;
+in vec4 weight4;
+
+layout (std140) uniform GLTFJoints
+{
+    // list of OBBs for user override probes
+    mat3x4 gltf_joints[MAX_JOINTS_PER_GLTF_OBJECT];
+};
+
+mat4 getGLTFSkinTransform()
+{
+    int i;
+
+    vec4 w = weight4;
+
+    uint i1 = joint.x;
+    uint i2 = joint.y;
+    uint i3 = joint.z;
+    uint i4 = joint.w;
+
+    mat3 mat = mat3(gltf_joints[i1])*w.x;
+         mat += mat3(gltf_joints[i2])*w.y;
+         mat += mat3(gltf_joints[i3])*w.z;
+         mat += mat3(gltf_joints[i4])*w.w;
+
+    vec3 trans = vec3(gltf_joints[i1][0].w,gltf_joints[i1][1].w,gltf_joints[i1][2].w)*w.x;
+         trans += vec3(gltf_joints[i2][0].w,gltf_joints[i2][1].w,gltf_joints[i2][2].w)*w.y;
+         trans += vec3(gltf_joints[i3][0].w,gltf_joints[i3][1].w,gltf_joints[i3][2].w)*w.z;
+         trans += vec3(gltf_joints[i4][0].w,gltf_joints[i4][1].w,gltf_joints[i4][2].w)*w.w;
+
+    mat4 ret;
+
+    ret[0] = vec4(mat[0], 0);
+    ret[1] = vec4(mat[1], 0);
+    ret[2] = vec4(mat[2], 0);
+    ret[3] = vec4(trans, 1.0);
+
+    return ret;
+
+#ifdef IS_AMD_CARD
+   // If it's AMD make sure the GLSL compiler sees the arrays referenced once by static index. Otherwise it seems to optimise the storage awawy which leads to unfun crashes and artifacts.
+   mat3x4 dummy1 = gltf_joints[0];
+   mat3x4 dummy2 = gltf_joints[MAX_JOINTS_PER_GLTF_OBJECT-1];
+#endif
+
+}
+
+#endif
+
+void main()
+{
+#ifdef HAS_SKIN
+    mat4 mat = getGLTFSkinTransform();
+
+    mat = modelview_matrix * mat;
+
+    vec3 pos = (mat*vec4(position.xyz,1.0)).xyz;
+    vary_position = pos;
+
+    vec4 vert = projection_matrix * vec4(pos, 1.0);
+    gl_Position = vert;
+
+#else
+    vary_position = (modelview_matrix*vec4(position.xyz, 1.0)).xyz;
+    //transform vertex
+    vec4 vert = modelview_projection_matrix * vec4(position.xyz, 1.0);
+    gl_Position = vert;
+#endif
+
+    vec2 bcuv;
+    vec2 emuv;
+
+#ifdef MULTI_UV
+    vec2 uv[2];
+    uv[0] = texcoord0;
+    uv[1] = texcoord1;
+
+    bcuv = uv[base_color_texcoord];
+    emuv = uv[emissive_texcoord];
+#else
+    bcuv = texcoord0;
+    emuv = texcoord0;
+#endif
+
+    base_color_uv = gltf_texture_transform(bcuv, texture_base_color_transform);
+    emissive_uv = gltf_texture_transform(emuv, texture_emissive_transform);
+
+#ifndef UNLIT
+    vec2 normuv;
+    vec2 rmuv;
+    vec2 ouv;
+#ifdef MULTI_UV
+    normuv = uv[normal_texcoord];
+    rmuv = uv[metallic_roughness_texcoord];
+    ouv = uv[occlusion_texcoord];
+#else
+    normuv = texcoord0;
+    rmuv = texcoord0;
+    ouv = texcoord0;
+#endif
+    normal_uv = gltf_texture_transform(normuv, texture_normal_transform);
+    metallic_roughness_uv = gltf_texture_transform(rmuv, texture_metallic_roughness_transform);
+    occlusion_uv = gltf_texture_transform(ouv, texture_occlusion_transform);
+#endif
+
+#ifndef UNLIT
+#ifdef HAS_SKIN
+    vec3 n = (mat*vec4(normal.xyz+position.xyz,1.0)).xyz-pos.xyz;
+    vec3 t = (mat*vec4(tangent.xyz+position.xyz,1.0)).xyz-pos.xyz;
+#else //HAS_SKIN
+    vec3 n = normal_matrix * normal;
+    vec3 t = normal_matrix * tangent.xyz;
+#endif
+
+    n = normalize(n);
+    vary_tangent = normalize(gltf_tangent_space_transform(vec4(t, tangent.w), n, texture_normal_transform));
+    vary_sign = tangent.w;
+    vary_normal = n;
+#endif
+
+    vertex_color = diffuse_color;
+#ifdef ALPHA_BLEND
+    vary_fragcoord = vert.xyz;
+#endif
+}
+
+
+
+