src/streamlit_app.py

#!/usr/bin/env python3
"""
LLM Compatibility Advisor - Streamlined with Download Sizes
Author: Assistant
Description: Provides device-based LLM recommendations with popular models and download sizes
Requirements: streamlit, pandas, plotly, openpyxl
"""
import os
import streamlit as st
from run2 import run_app2
import pandas as pd
import numpy as np
import re
import plotly.express as px
import plotly.graph_objects as go
import torch
from typing import Optional, Tuple, List, Dict
from run3 import estimate_training_time_and_cost,get_gpu_teraflops,get_gpu_cost_per_tflop_hour
from utils import get_all_models_from_database
from transformers import AutoTokenizer, AutoModelForCausalLM, TextStreamer
from huggingface_hub import login

HUGGINGFACE_TOKEN = "your_huggingface_token_here"  # Replace with your actual token

tokenizer = AutoTokenizer.from_pretrained("meta-llama/Llama-3.1-8B-Instruct")
model = AutoModelForCausalLM.from_pretrained("meta-llama/Llama-3.1-8B-Instruct")

def load_model():
    login(token=HUGGINGFACE_TOKEN)

    model_id = "meta-llama/Llama-3.1-8B-Instruct"
    tokenizer = AutoTokenizer.from_pretrained(model_id, use_auth_token=True)
    model = AutoModelForCausalLM.from_pretrained(model_id, use_auth_token=True)
    pipe = pipeline("text-generation", model=model, tokenizer=tokenizer)
    return pipe

pipe = load_model()

# --- STREAMLIT UI ---

st.title("💬 LLaMA 3.1 Chatbot")

# Initialize session state
if "chat_history" not in st.session_state:
    st.session_state.chat_history = []

# Chat display
for msg in st.session_state.chat_history:
    st.markdown(f"**You:** {msg['user']}")
    st.markdown(f"**Bot:** {msg['bot']}")

# User input
user_input = st.text_input("Type your message:")

if st.button("Send") and user_input:
    with st.spinner("Generating response..."):
        response = pipe(
            user_input,
            max_new_tokens=200,
            do_sample=True,
            temperature=0.7,
            top_p=0.95,
            num_return_sequences=1,
        )[0]["generated_text"]

        # Post-process: remove prompt from response
        bot_reply = response[len(user_input):].strip()

        # Save to history
        st.session_state.chat_history.append({
            "user": user_input,
            "bot": bot_reply
        })

        # Clear input
        st.experimental_rerun()

# ADD THIS BLOCK HERE (Line 16)
# Language configuration
LANGUAGES = {
    'en': 'English',
    'te': 'తెలుగు',
    'hi': 'हिंदी'
}

# Translation dictionaries
TRANSLATIONS = {
    'en': {
        'title': 'LLM Compatibility Advisor',
        'select_language': 'Select Language',
        'dataset_analysis': 'Dataset Analysis',
        'manual_spec_entry': 'Manual Spec Entry',
        'training_estimator': 'LLM Training Time Estimator',
        'individual_analysis': 'Individual Student Analysis',
        'choose_student': 'Choose a student:',
        'laptop_config': 'Laptop Configuration',
        'mobile_config': 'Mobile Configuration',
        'performance_tier': 'Performance Tier',
        'recommendation': 'Recommendation',
        'notes': 'Notes',
        'batch_analysis': 'Batch Analysis & Insights',
        'student_recommendations': 'Student Recommendations',
        'ram_distribution': 'RAM Distribution Analysis',
        'performance_summary': 'Performance Tier Summary',
        'model_explorer': 'Popular Model Explorer',
        'select_ram_range': 'Select RAM range to explore models:',
        'select_category': 'Select model category:',
        'download_size': 'Download Size',
        'available_on': 'Available on',
        'general_purpose': 'General Purpose',
        'code_specialists': 'Code Specialists',
        'chat_optimized': 'Chat Optimized',
        'reasoning_masters': 'Reasoning Masters',
        'multimodal_models': 'Multimodal Models',
        'recommended_models': 'Recommended Models for'
    },
    'te': {
        'title': 'LLM అనుకూలత సలహాదారు',
        'select_language': 'భాష ఎంచుకోండి',
        'dataset_analysis': 'డేటాసెట్ విశ్లేషణ',
        'manual_spec_entry': 'మాన్యువల్ స్పెక్ ఎంట్రీ',
        'training_estimator': 'LLM శిక్షణ సమయం అంచనా',
        'individual_analysis': 'వ్యక్తిగత విద్యార్థి విశ్లేషణ',
        'choose_student': 'విద్యార్థిని ఎంచుకోండి:',
        'laptop_config': 'ల్యాప్‌టాప్ కాన్ఫిగరేషన్',
        'mobile_config': 'మొబైల్ కాన్ఫిగరేషన్',
        'performance_tier': 'పనితీరు శ్రేణి',
        'recommendation': 'సిఫార్సు',
        'notes': 'గమనికలు',
        'batch_analysis': 'బ్యాచ్ విశ్లేషణ మరియు అంతర్దృష్టులు',
        'student_recommendations': 'విద్యార్థి సిఫార్సులు',
        'ram_distribution': 'RAM పంపిణీ విశ్లేషణ',
        'performance_summary': 'పనితీరు శ్రేణి సారాంశం',
        'model_explorer': 'జనాదరణ పొందిన మోడల్ ఎక్స్‌ప్లోరర్',
        'select_ram_range': 'మోడల్‌లను అన్వేషించడానికి RAM పరిధిని ఎంచుకోండి:',
        'select_category': 'మోడల్ వర్గాన్ని ఎంచుకోండి:',
        'download_size': 'డౌన్‌లోడ్ పరిమాణం',
        'available_on': 'అందుబాటులో',
        'general_purpose': 'సాధారణ ప్రయోజనం',
        'code_specialists': 'కోడ్ నిపుణులు',
        'chat_optimized': 'చాట్ అనుకూలీకరించబడింది',
        'reasoning_masters': 'తర్క నిపుణులు',
        'multimodal_models': 'మల్టీమోడల్ మోడల్స్',
        'recommended_models': 'సిఫార్సు చేసిన మోడల్స్'
    },
    'hi': {
        'title': 'LLM संगतता सलाहकार',
        'select_language': 'भाषा चुनें',
        'dataset_analysis': 'डेटासेट विश्लेषण',
        'manual_spec_entry': 'मैनुअल स्पेक एंट्री',
        'training_estimator': 'LLM प्रशिक्षण समय अनुमानक',
        'individual_analysis': 'व्यक्तिगत छात्र विश्लेषण',
        'choose_student': 'छात्र चुनें:',
        'laptop_config': 'लैपटॉप कॉन्फ़िगरेशन',
        'mobile_config': 'मोबाइल कॉन्फ़िगरेशन',
        'performance_tier': 'प्रदर्शन स्तर',
        'recommendation': 'सिफारिश',
        'notes': 'नोट्स',
        'batch_analysis': 'बैच विश्लेषण और अंतर्दृष्टि',
        'student_recommendations': 'छात्र सिफारिशें',
        'ram_distribution': 'RAM वितरण विश्लेषण',
        'performance_summary': 'प्रदर्शन स्तर सारांश',
        'model_explorer': 'लोकप्रिय मॉडल एक्सप्लोरर',
        'select_ram_range': 'मॉडल एक्सप्लोर करने के लिए RAM रेंज चुनें:',
        'select_category': 'मॉडल श्रेणी चुनें:',
        'download_size': 'डाउनलोड आकार',
        'available_on': 'उपलब्ध है',
        'general_purpose': 'सामान्य प्रयोजन',
        'code_specialists': 'कोड विशेषज्ञ',
        'chat_optimized': 'चैट अनुकूलित',
        'reasoning_masters': 'तर्क विशेषज्ञ',
        'multimodal_models': 'मल्टीमॉडल मॉडल्स',
        'recommended_models': 'अनुशंसित मॉडल'
    }
}

@st.cache_resource
def load_llama3_pipeline():
    tokenizer = AutoTokenizer.from_pretrained("meta-llama/Llama-3.1-8B-Instruct")
    model = AutoModelForCausalLM.from_pretrained(
        "meta-llama/Llama-3.1-8B-Instruct",
        torch_dtype=torch.float16 if torch.cuda.is_available() else torch.float32,
        device_map="auto" if torch.cuda.is_available() else None
    )
    return tokenizer, model

tokenizer, model = load_llama3_pipeline()

st.title("🧠 Chat with Llama 3.1 8B (Instruct)")

if 'chat_history' not in st.session_state:
    st.session_state.chat_history = [
        {"role": "system", "content": "You are a helpful, concise assistant."}
    ]

user_input = st.text_input("You:", key="user_input")

if user_input:
    st.session_state.chat_history.append({"role": "user", "content": user_input})

    # Format messages into prompt
    messages = st.session_state.chat_history
    prompt = tokenizer.apply_chat_template(messages, tokenize=False, add_generation_prompt=True)

    inputs = tokenizer(prompt, return_tensors="pt").to(model.device)

    with st.spinner("Llama 3 is thinking..."):
        output = model.generate(
            **inputs,
            max_new_tokens=512,
            temperature=0.7,
            do_sample=True,
            top_p=0.9,
            pad_token_id=tokenizer.eos_token_id
        )

    decoded = tokenizer.decode(output[0], skip_special_tokens=True)
    response = decoded.split(prompt)[-1].strip()

    st.session_state.chat_history.append({"role": "assistant", "content": response})

# Display conversation
for msg in st.session_state.chat_history:
    if msg["role"] == "user":
        st.markdown(f"**You:** {msg['content']}")
    elif msg["role"] == "assistant":
        st.markdown(f"**AI:** {msg['content']}")
        
def get_text(key, lang='en'):
    """Get translated text for given key and language"""
    return TRANSLATIONS.get(lang, TRANSLATIONS['en']).get(key, key)

def init_session_state():
    """Initialize session state variables"""
    if 'language' not in st.session_state:
        st.session_state.language = 'en'
# END OF ADDITION

# ✅ MUST be the first Streamlit command
st.set_page_config(
    page_title="LLM Compatibility Advisor", 
    layout="wide",
    page_icon="",
    initial_sidebar_state="expanded"
)

init_session_state()

# Enhanced data loading with error handling
def run_app1():

    @st.cache_data
    def load_data():
        paths = [
            "src/BITS_INTERNS.xlsx",
            "src/ICFAI.xlsx"
        ]
        
        combined_df = pd.DataFrame()
        for path in paths:
            try:
                df = pd.read_excel(path, sheet_name="Form Responses 1")
                df.columns = df.columns.str.strip()
                combined_df = pd.concat([combined_df, df], ignore_index=True)
            except FileNotFoundError:
                return None, f"Excel file '{path}' not found. Please upload the file."
            except Exception as e:
                return None, f"Error loading '{path}': {str(e)}"
            
        # Return success case - this was missing!
        if combined_df.empty:
            return None, "No data found in Excel files."
        else:
            return combined_df, None

# Enhanced RAM extraction with better parsing
def extract_numeric_ram(ram) -> Optional[int]:
    if pd.isna(ram):
        return None
    
    ram_str = str(ram).lower().replace(" ", "")
    
    # Handle various formats: "8GB", "8 GB", "8gb", "8192MB", etc.
    gb_match = re.search(r"(\d+(?:\.\d+)?)(?:gb|g)", ram_str)
    if gb_match:
        return int(float(gb_match.group(1)))
    
    # Handle MB format
    mb_match = re.search(r"(\d+)(?:mb|m)", ram_str)
    if mb_match:
        return max(1, int(int(mb_match.group(1)) / 1024))  # Convert MB to GB
    
    # Handle plain numbers (assume GB)
    plain_match = re.search(r"(\d+)", ram_str)
    if plain_match:
        return int(plain_match.group(1))
    
    return None

# Streamlined LLM database with popular models and download sizes
# REPLACE the existing recommend_llm function (around Line 132) with this:
def recommend_llm(ram_str, lang='en') -> Tuple[str, str, str, Dict[str, List[Dict]]]:
    """Returns (recommendation, performance_tier, additional_info, detailed_models)"""
    ram = extract_numeric_ram(ram_str)
    
    # Localized recommendations
    recommendations = {
        'en': {
            'ultra_low': "🔸 Ultra-lightweight models - basic NLP tasks",
            'low': "🔸 Small language models - decent capabilities",
            'moderate_low': "🟠 Mid-range models - good general performance",
            'moderate': "🟠 Strong 7B models - excellent capabilities",
            'good': "🟢 High-quality models - premium performance",
            'high': "🔵 Premium models - professional grade",
            'ultra_high': "🔵 Top-tier models - enterprise capabilities",
            'unknown': "⚪ Check exact specs or test with quantized models."
        },
        'te': {
            'ultra_low': "🔸 అల్ట్రా-లైట్‌వెయిట్ మోడల్స్ - ప్రాథమిక NLP పనులు",
            'low': "🔸 చిన్న భాష మోడల్స్ - మంచి సామర్థ్యాలు",
            'moderate_low': "🟠 మధ్య-శ్రేణి మోడల్స్ - మంచి సాధారణ పనితీరు",
            'moderate': "🟠 బలమైన 7B మోడల్స్ - అద్భుతమైన సామర్థ్యాలు",
            'good': "🟢 అధిక-నాణ్యత మోడల్స్ - ప్రీమియం పనితీరు",
            'high': "🔵 ప్రీమియం మోడల్స్ - వృత్తిపరమైన గ్రేడ్",
            'ultra_high': "🔵 టాప్-టైర్ మోడల్స్ - ఎంటర్‌ప్రైజ్ సామర్థ్యాలు",
            'unknown': "⚪ ఖచ్చితమైన స్పెక్స్ చెక్ చేయండి లేదా క్వాంటైజ్డ్ మోడల్స్‌తో టెస్ట్ చేయండి."
        },
        'hi': {
            'ultra_low': "🔸 अल्ट्रा-लाइटवेट मॉडल - बुनियादी NLP कार्य",
            'low': "🔸 छोटे भाषा मॉडल - अच्छी क्षमताएं",
            'moderate_low': "🟠 मध्यम-श्रेणी मॉडल - अच्छा सामान्य प्रदर्शन",
            'moderate': "🟠 मजबूत 7B मॉडल - उत्कृष्ट क्षमताएं",
            'good': "🟢 उच्च-गुणवत्ता मॉडल - प्रीमियम प्रदर्शन",
            'high': "🔵 प्रीमियम मॉडल - व्यावसायिक ग्रेड",
            'ultra_high': "🔵 टॉप-टियर मॉडल - एंटरप्राइज़ क्षमताएं",
            'unknown': "⚪ सटीक स्पेक्स जांचें या क्वांटाइज़्ड मॉडल के साथ परीक्षण करें।"
        }
    }
    
    info_text = {
        'en': {
            'ultra_low': "Mobile-optimized, simple tasks, limited context",
            'low': "Basic chat, simple reasoning, text classification",
            'moderate_low': "Solid reasoning, coding help, longer conversations",
            'moderate': "Professional use, coding assistance, complex reasoning",
            'good': "Advanced tasks, multimodal support, research use",
            'high': "Enterprise ready, complex reasoning, specialized tasks",
            'ultra_high': "Research grade, maximum performance, domain expertise",
            'unknown': "Verify RAM specifications"
        },
        'te': {
            'ultra_low': "మొబైల్-అనుకూలీకరించబడిన, సాధారణ పనులు, పరిమిత సందర్భం",
            'low': "ప్రాథమిక చాట్, సాధారణ తర్కం, టెక్స్ట్ వర్గీకరణ",
            'moderate_low': "దృఢమైన తర్కం, కోడింగ్ సహాయం, పొడవైన సంభాషణలు",
            'moderate': "వృత్తిపరమైన ఉపయోగం, కోడింగ్ సహాయం, సంక్లిష్ట తర్కం",
            'good': "అధునాతన పనులు, మల్టీమోడల్ మద్దతు, పరిశోధన ఉపయోగం",
            'high': "ఎంటర్‌ప్రైజ్ సిద్ధం, సంక్లిష్ట తర్కం, ప్రత్యేక పనులు",
            'ultra_high': "పరిశోధనా గ్రేడ్, గరిష్ట పనితీరు, డొమైన్ నైపుణ్యం",
            'unknown': "RAM స్పెసిఫికేషన్లను ధృవీకరించండి"
        },
        'hi': {
            'ultra_low': "मोबाइल-अनुकूलित, सरल कार्य, सीमित संदर्भ",
            'low': "बुनियादी चैट, सरल तर्क, टेक्स्ट वर्गीकरण",
            'moderate_low': "ठोस तर्क, कोडिंग सहायता, लंबी बातचीत",
            'moderate': "व्यावसायिक उपयोग, कोडिंग सहायता, जटिल तर्क",
            'good': "उन्नत कार्य, मल्टीमॉडल समर्थन, अनुसंधान उपयोग",
            'high': "एंटरप्राइज़ तैयार, जटिल तर्क, विशेष कार्य",
            'ultra_high': "अनुसंधान ग्रेड, अधिकतम प्रदर्शन, डोमेन विशेषज्ञता",
            'unknown': "RAM विनिर्देशों को सत्यापित करें"
        }
    }
    
    if ram is None:
        return (recommendations[lang]['unknown'], 
                "Unknown", 
                info_text[lang]['unknown'],
                {})
    
    if ram <= 2:
        models = LLM_DATABASE["ultra_low"]
        return (recommendations[lang]['ultra_low'], 
                "Ultra Low", 
                info_text[lang]['ultra_low'],
                models)
    elif ram <= 4:
        models = LLM_DATABASE["low"]
        return (recommendations[lang]['low'], 
                "Low", 
                info_text[lang]['low'],
                models)
    elif ram <= 6:
        models = LLM_DATABASE["moderate_low"]
        return (recommendations[lang]['moderate_low'], 
                "Moderate-Low", 
                info_text[lang]['moderate_low'],
                models)
    elif ram <= 8:
        models = LLM_DATABASE["moderate"]
        return (recommendations[lang]['moderate'], 
                "Moderate", 
                info_text[lang]['moderate'],
                models)
    elif ram <= 16:
        models = LLM_DATABASE["good"]
        return (recommendations[lang]['good'], 
                "Good", 
                info_text[lang]['good'],
                models)
    elif ram <= 32:
        models = LLM_DATABASE["high"]
        return (recommendations[lang]['high'], 
                "High", 
                info_text[lang]['high'],
                models)
    else:
        models = LLM_DATABASE["ultra_high"]
        return (recommendations[lang]['ultra_high'], 
                "Ultra High", 
                info_text[lang]['ultra_high'],
                models)

# Enhanced OS detection with better icons
def get_os_info(os_name) -> Tuple[str, str]:
    """Returns (icon, clean_name)"""
    if pd.isna(os_name):
        return "💻", "Not specified"
    
    os = str(os_name).lower()
    if "windows" in os:
        return "🪟", os_name
    elif "mac" in os or "darwin" in os:
        return "🍎", os_name
    elif "linux" in os or "ubuntu" in os:
        return "🐧", os_name
    elif "android" in os:
        return "🤖", os_name
    elif "ios" in os:
        return "📱", os_name
    else:
        return "💻", os_name

# Performance visualization
def create_performance_chart(df):
    """Create a performance distribution chart"""
    laptop_rams = df["Laptop RAM"].apply(extract_numeric_ram).dropna()
    mobile_rams = df["Mobile RAM"].apply(extract_numeric_ram).dropna()
    
    fig = go.Figure()
    
    fig.add_trace(go.Histogram(
        x=laptop_rams,
        name="Laptop RAM",
        opacity=0.7,
        nbinsx=10
    ))
    
    fig.add_trace(go.Histogram(
        x=mobile_rams,
        name="Mobile RAM",
        opacity=0.7,
        nbinsx=10
    ))
    
    fig.update_layout(
        title="RAM Distribution Across Devices",
        xaxis_title="RAM (GB)",
        yaxis_title="Number of Students",
        barmode='overlay',
        height=400
    )
    
    return fig

# Enhanced model details display function

def display_model_categories(models_dict: Dict[str, List[Dict]], ram_gb: int, lang='en'):
    """Display models organized by category with download sizes"""
    if not models_dict:
        return
    
    st.markdown(f"### 🎯 {get_text('recommended_models', lang)} {ram_gb}GB RAM:")
    
    category_names = {
        'en': {'general': 'General', 'code': 'Code', 'chat': 'Chat', 'reasoning': 'Reasoning', 'multimodal': 'Multimodal'},
        'te': {'general': 'సాధారణ', 'code': 'కోడ్', 'chat': 'చాట్', 'reasoning': 'తర్కం', 'multimodal': 'మల్టీమోడల్'},
        'hi': {'general': 'सामान्य', 'code': 'कोड', 'chat': 'चैट', 'reasoning': 'तर्क', 'multimodal': 'मल्टीमॉडल'}
    }
    
    for category, model_list in models_dict.items():
        if model_list:
            category_display = category_names[lang].get(category, category.title())
            with st.expander(f"📂 {category_display} Models"):
                for model in model_list[:8]:  # Limit to top 8 per category
                    col1, col2, col3, col4 = st.columns([3, 1, 2, 4])
                    with col1:
                        st.markdown(f"**{model['name']}**")
                    with col2:
                        st.markdown(f"`{model['size']}`")
                    with col3:
                        st.markdown(f"*{model['description']}*")
                    with col4:
                        st.markdown(f"*{model['cost(A100)']}*")
# Demo data generator for when Excel files are not available
def generate_demo_data():
    """Generate demo data for testing when Excel files are missing"""
    demo_data = {
        "Full Name": [
            "Demo Student 1", "Demo Student 2", "Demo Student 3", "Demo Student 4",
            "Demo Student 5", "Demo Student 6", "Demo Student 7", "Demo Student 8"
        ],
        "Laptop RAM": ["8GB", "16GB", "4GB", "32GB", "6GB", "12GB", "2GB", "24GB"],
        "Mobile RAM": ["4GB", "8GB", "3GB", "12GB", "6GB", "4GB", "2GB", "8GB"],
        "Laptop Operating System": [
            "Windows 11", "macOS Monterey", "Ubuntu 22.04", "Windows 10",
            "macOS Big Sur", "Fedora 36", "Windows 11", "macOS Ventura"
        ],
        "Mobile Operating System": [
            "Android 13", "iOS 16", "Android 12", "iOS 15",
            "Android 14", "iOS 17", "Android 11", "iOS 16"
        ]
    }
    return pd.DataFrame(demo_data)

# Function to safely prepare user options
def prepare_user_options(df):
    """Safely prepare user options for selectbox, handling NaN values and mixed types"""
    try:
        # Get unique names and filter out NaN values
        unique_names = df["Full Name"].dropna().unique()
        
        # Convert to strings and filter out any remaining non-string values
        valid_names = []
        for name in unique_names:
            try:
                str_name = str(name).strip()
                if str_name and str_name.lower() != 'nan':
                    valid_names.append(str_name)
            except:
                continue
        
        # Create options list with proper string concatenation
        options = ["Select a student..."] + sorted(valid_names)
        return options
    except Exception as e:
        st.error(f"Error preparing user options: {e}")
        return ["Select a student..."]

# Main App
st.title(get_text('title', st.session_state.language))
tab1, tab2, tab3 = st.tabs([
    f"📊 {get_text('dataset_analysis', st.session_state.language)}", 
    f"⚙️ {get_text('manual_spec_entry', st.session_state.language)}",
    f"🧠 {get_text('training_estimator', st.session_state.language)}"
])

with tab1:
    st.markdown("Get personalized recommendations from **150+ popular open source AI models** with download sizes!")
# Load data with better error handling
df, error = load_data()

if error or df is None or df.empty:
    st.warning("⚠️ Excel files not found. Running with demo data for testing.")
    st.info("📁 To use real data, place 'BITS_INTERNS.xlsx' and 'ICFAI.xlsx' in the 'src/' directory.")
    df = generate_demo_data()
    
    with st.expander("📋 Expected Data Format"):
        st.markdown("""
        The app expects Excel files with the following columns:
        - **Full Name**: Student name
        - **Laptop RAM**: RAM specification (e.g., "8GB", "16 GB", "8192MB")
        - **Mobile RAM**: Mobile device RAM
        - **Laptop Operating System**: OS name
        - **Mobile Operating System**: Mobile OS name
        """)

# Verify required columns exist
required_columns = ["Full Name", "Laptop RAM", "Mobile RAM"]
missing_columns = [col for col in required_columns if col not in df.columns]

if missing_columns:
    st.error(f"Missing required columns: {missing_columns}")
    st.info("Please ensure your Excel file contains the required columns.")
    st.stop()

# Clean the dataframe
df = df.copy()
df["Full Name"] = df["Full Name"].astype(str).str.strip()

# Sidebar filters and info
with st.sidebar:
    st.header("🔍 Filters & Info")
    # Language selector
    st.subheader("🌐 Language / భాష / भाषा")
    selected_language = st.selectbox(
        get_text('select_language', st.session_state.language),
        options=list(LANGUAGES.keys()),
        format_func=lambda x: LANGUAGES[x],
        index=list(LANGUAGES.keys()).index(st.session_state.language)
    )
    
    if selected_language != st.session_state.language:
        st.session_state.language = selected_language
        st.rerun()
    
    st.markdown("---")
    
    # Performance tier filter
    performance_filter = st.multiselect(
        "Filter by Performance Tier:",
        ["Ultra Low", "Low", "Moderate-Low", "Moderate", "Good", "High", "Ultra High", "Unknown"],
        default=["Ultra Low", "Low", "Moderate-Low", "Moderate", "Good", "High", "Ultra High", "Unknown"]
    )
    
    # Model category filter
    st.subheader("Model Categories")
    show_categories = st.multiselect(
        "Show specific categories:",
        ["general", "code", "chat", "reasoning", "multimodal"],
        default=["general", "code", "chat"]
    )
    
    st.markdown("---")
    st.markdown("### 📊 Quick Stats")
    st.metric("Total Students", len(df))
    st.metric("Popular Models", "150+")
    
    # Calculate average RAM
    avg_laptop_ram = df["Laptop RAM"].apply(extract_numeric_ram).mean()
    avg_mobile_ram = df["Mobile RAM"].apply(extract_numeric_ram).mean()
    
    if not pd.isna(avg_laptop_ram):
        st.metric("Avg Laptop RAM", f"{avg_laptop_ram:.1f} GB")
    if not pd.isna(avg_mobile_ram):
        st.metric("Avg Mobile RAM", f"{avg_mobile_ram:.1f} GB")

# User selection with search - FIXED VERSION
# REPLACE the existing section (around Line 380) with this:
# User selection with search - FIXED VERSION
st.subheader(f"👤 {get_text('individual_analysis', st.session_state.language)}")

# Prepare options safely
user_options = prepare_user_options(df)

selected_user = st.selectbox(
    get_text('choose_student', st.session_state.language),
    options=user_options,
    index=0  # Default to first option ("Select a student...")
)

# REPLACE the existing configuration display (around Line 393) with this:
if selected_user and selected_user != "Select a student...":
    # Find user data with safe lookup
    user_data_mask = df["Full Name"].astype(str).str.strip() == selected_user
    if user_data_mask.any():
        user_data = df[user_data_mask].iloc[0]
        
        # Enhanced user display
        col1, col2 = st.columns(2)
        
        with col1:
            st.markdown(f"### 💻 {get_text('laptop_config', st.session_state.language)}")
            laptop_os_icon, laptop_os_name = get_os_info(user_data.get('Laptop Operating System'))
            laptop_ram = user_data.get('Laptop RAM', 'Not specified')
            laptop_rec, laptop_tier, laptop_info, laptop_models = recommend_llm(laptop_ram, st.session_state.language)
            laptop_ram_gb = extract_numeric_ram(laptop_ram) or 0
            
            st.markdown(f"**OS:** {laptop_os_icon} {laptop_os_name}")
            st.markdown(f"**RAM:** {laptop_ram}")
            st.markdown(f"**{get_text('performance_tier', st.session_state.language)}:** {laptop_tier}")
            
            st.success(f"**💡 {get_text('recommendation', st.session_state.language)}:** {laptop_rec}")
            st.info(f"**ℹ️ {get_text('notes', st.session_state.language)}:** {laptop_info}")
            
            # Display detailed models for laptop
            if laptop_models:
                filtered_models = {k: v for k, v in laptop_models.items() if k in show_categories}
                display_model_categories(filtered_models, laptop_ram_gb, st.session_state.language)
        
        with col2:
            st.markdown(f"### 📱 {get_text('mobile_config', st.session_state.language)}")
            mobile_os_icon, mobile_os_name = get_os_info(user_data.get('Mobile Operating System'))
            mobile_ram = user_data.get('Mobile RAM', 'Not specified')
            mobile_rec, mobile_tier, mobile_info, mobile_models = recommend_llm(mobile_ram, st.session_state.language)
            mobile_ram_gb = extract_numeric_ram(mobile_ram) or 0
            
            st.markdown(f"**OS:** {mobile_os_icon} {mobile_os_name}")
            st.markdown(f"**RAM:** {mobile_ram}")
            st.markdown(f"**{get_text('performance_tier', st.session_state.language)}:** {mobile_tier}")
            
            st.success(f"**💡 {get_text('recommendation', st.session_state.language)}:** {mobile_rec}")
            st.info(f"**ℹ️ {get_text('notes', st.session_state.language)}:** {mobile_info}")
            
            # Display detailed models for mobile
            if mobile_models:
                filtered_models = {k: v for k, v in mobile_models.items() if k in show_categories}
                display_model_categories(filtered_models, mobile_ram_gb, st.session_state.language)
# Batch Analysis Section
# REPLACE the existing batch analysis section (around Line 436) with this:
# Batch Analysis Section
st.markdown("---")
st.header(f"📊 {get_text('batch_analysis', st.session_state.language)}")

# Create enhanced batch table
df_display = df[["Full Name", "Laptop RAM", "Mobile RAM"]].copy()

# Add recommendations and performance tiers
laptop_recommendations = df["Laptop RAM"].apply(lambda x: recommend_llm(x, st.session_state.language)[0])
mobile_recommendations = df["Mobile RAM"].apply(lambda x: recommend_llm(x, st.session_state.language)[0])
laptop_tiers = df["Laptop RAM"].apply(lambda x: recommend_llm(x, st.session_state.language)[1])
mobile_tiers = df["Mobile RAM"].apply(lambda x: recommend_llm(x, st.session_state.language)[1])

df_display["Laptop LLM"] = laptop_recommendations
df_display["Mobile LLM"] = mobile_recommendations
df_display["Laptop Tier"] = laptop_tiers
df_display["Mobile Tier"] = mobile_tiers

# Filter based on sidebar selections
mask = (laptop_tiers.isin(performance_filter) | mobile_tiers.isin(performance_filter))
df_filtered = df_display[mask]

# Display filtered table
st.subheader(f"📋 {get_text('student_recommendations', st.session_state.language)} ({len(df_filtered)} students)")
st.dataframe(
    df_filtered, 
    use_container_width=True,
    column_config={
        "Full Name": st.column_config.TextColumn("Student Name", width="medium"),
        "Laptop RAM": st.column_config.TextColumn("Laptop RAM", width="small"),
        "Mobile RAM": st.column_config.TextColumn("Mobile RAM", width="small"),
        "Laptop LLM": st.column_config.TextColumn("Laptop Recommendation", width="large"),
        "Mobile LLM": st.column_config.TextColumn("Mobile Recommendation", width="large"),
        "Laptop Tier": st.column_config.TextColumn("L-Tier", width="small"),
        "Mobile Tier": st.column_config.TextColumn("M-Tier", width="small"),
    }
)

# Performance distribution chart
if len(df) > 1:
    st.subheader("📈 RAM Distribution Analysis")
    fig = create_performance_chart(df)
    st.plotly_chart(fig, use_container_width=True)

# Performance tier summary
st.subheader("🎯 Performance Tier Summary")
tier_col1, tier_col2 = st.columns(2)

with tier_col1:
    st.markdown("**Laptop Performance Tiers:**")
    laptop_tier_counts = laptop_tiers.value_counts()
    for tier, count in laptop_tier_counts.items():
        percentage = (count / len(laptop_tiers)) * 100
        st.write(f"• {tier}: {count} students ({percentage:.1f}%)")

with tier_col2:
    st.markdown("**Mobile Performance Tiers:**")
    mobile_tier_counts = mobile_tiers.value_counts()
    for tier, count in mobile_tier_counts.items():
        percentage = (count / len(mobile_tier_counts)) * 100
        st.write(f"• {tier}: {count} students ({percentage:.1f}%)")

# Model Explorer Section
st.markdown("---")
st.header("🔍 Popular Model Explorer")

explorer_col1, explorer_col2 = st.columns(2)

with explorer_col1:
    selected_ram_range = st.selectbox(
        "Select RAM range to explore models:",
        ["≤2GB (Ultra Low)", "3-4GB (Low)", "5-6GB (Moderate-Low)", 
         "7-8GB (Moderate)", "9-16GB (Good)", "17-32GB (High)", ">32GB (Ultra High)"]
    )

with explorer_col2:
    selected_category = st.selectbox(
        "Select model category:",
        ["general", "code", "chat", "reasoning", "multimodal"]
    )

# Map selection to database key
ram_mapping = {
    "≤2GB (Ultra Low)": "ultra_low",
    "3-4GB (Low)": "low", 
    "5-6GB (Moderate-Low)": "moderate_low",
    "7-8GB (Moderate)": "moderate",
    "9-16GB (Good)": "good",
    "17-32GB (High)": "high",
    ">32GB (Ultra High)": "ultra_high"
}

selected_ram_key = ram_mapping[selected_ram_range]
if selected_ram_key in LLM_DATABASE and selected_category in LLM_DATABASE[selected_ram_key]:
    models = LLM_DATABASE[selected_ram_key][selected_category]
    
    st.subheader(f"🎯 {selected_category.title()} Models for {selected_ram_range}")
    
    # Display models in a detailed table
    for model in models:
        with st.container():
            col1, col2, col3 = st.columns([3, 1, 3])
            with col1:
                st.markdown(f"### {model['name']}")
            with col2:
                st.markdown(f"**{model['size']}**")
                st.caption("Download Size")
            with col3:
                st.markdown(f"*{model['description']}*")
                # Add download suggestion
                if "Llama" in model['name']:
                    st.caption("🔗 Available on Hugging Face & Ollama")
                elif "Mistral" in model['name']:
                    st.caption("🔗 Available on Hugging Face & Mistral AI")
                elif "Gemma" in model['name']:
                    st.caption("🔗 Available on Hugging Face & Google")
                else:
                    st.caption("🔗 Available on Hugging Face")
            st.markdown("---")
else:
    st.info(f"No {selected_category} models available for {selected_ram_range}")

# Enhanced reference guide
with st.expander("📘 Model Guide & Download Information"):
    st.markdown("""
    ## 🚀 Popular Models by Category
    
    ### 🎯 **General Purpose Champions**
    - **Llama-2 Series**: Meta's flagship models (7B, 13B, 70B)
    - **Mistral Series**: Excellent efficiency and performance
    - **Gemma**: Google's efficient models (2B, 7B)
    - **Phi**: Microsoft's compact powerhouses
    
    ### 💻 **Code Specialists** 
    - **CodeLlama**: Meta's dedicated coding models
    - **StarCoder**: BigCode's programming experts
    - **WizardCoder**: Enhanced coding capabilities
    - **DeepSeek-Coder**: Chinese tech giant's coder
    
    ### 💬 **Chat Optimized**
    - **Vicuna**: UC Berkeley's ChatGPT alternative
    - **Zephyr**: HuggingFace's chat specialist
    - **OpenChat**: High-quality conversation models
    - **Neural-Chat**: Intel-optimized chat models
 
    ### 🧮 **Reasoning Masters**
    - **WizardMath**: Mathematical problem solving
    - **MetaMath**: Advanced arithmetic reasoning
    - **Orca-2**: Microsoft's reasoning specialist
    - **Goat**: Specialized arithmetic model
    
    ### 👁️ **Multimodal Models**
    - **LLaVA**: Large Language and Vision Assistant
    - **MiniGPT-4**: Multimodal conversational AI
    
    ## 💾 Download Size Reference
    
    | Model Size | FP16 | 8-bit | 4-bit | Use Case |
    |------------|------|-------|-------|----------|
    | **1-3B** | 2-6GB | 1-3GB | 0.5-1.5GB | Mobile, Edge |
    | **7B** | 13GB | 7GB | 3.5GB | Desktop, Laptop |
    | **13B** | 26GB | 13GB | 7GB | Workstation |
    | **30-34B** | 60GB | 30GB | 15GB | Server, Cloud |
    | **70B** | 140GB | 70GB | 35GB | High-end Server |
    
    ## 🛠️ Where to Download
    
    ### **Primary Sources**
    - **🤗 Hugging Face**: Largest repository with 400,000+ models
    - **🦙 Ollama**: Simple CLI tool for local deployment
    - **📦 LM Studio**: User-friendly GUI for model management
    
    ### **Quantized Formats**
    - **GGUF**: Best for CPU inference (llama.cpp)
    - **GPTQ**: GPU-optimized quantization
    - **AWQ**: Advanced weight quantization
    
    ### **Download Tips**
    - Use `git lfs` for large models from Hugging Face
    - Consider bandwidth and storage before downloading
    - Start with 4-bit quantized versions for testing
    - Use `ollama pull model_name` for easiest setup
    
    ## 🔧 Optimization Strategies
    
    ### **Memory Reduction**
    - **4-bit quantization**: 75% memory reduction
    - **8-bit quantization**: 50% memory reduction
    - **CPU offloading**: Use system RAM for overflow
    
    ### **Speed Optimization**
    - **GPU acceleration**: CUDA, ROCm, Metal
    - **Batch processing**: Process multiple requests
    - **Context caching**: Reuse computations
    """)

# Footer with updated resources
st.markdown("---")
st.markdown("""
### 🔗 Essential Download & Deployment Tools
**📦 Easy Model Deployment:**
- [**Ollama**](https://ollama.ai/) – `curl -fsSL https://ollama.ai/install.sh | sh`
- [**LM Studio**](https://lmstudio.ai/) – Drag-and-drop GUI for running models locally
- [**GPT4All**](https://gpt4all.io/) – Cross-platform desktop app for local LLMs
**🤗 Model Repositories:**
- [**Hugging Face Hub**](https://huggingface.co/models) – Filter by model size, task, and license
- [**TheBloke's Quantizations**](https://huggingface.co/TheBloke) – Pre-quantized models in GGUF/GPTQ format
- [**Awesome LLM**](https://github.com/Hannibal046/Awesome-LLMs) – Curated list of models and resources
---
""")

with tab2:
        run_app2()


with tab3:
    st.title("🧠 LLM Training Time & Cost Estimator")

# Load and prepare model list
model_list = get_all_models_from_database(LLM_DATABASE)
dropdown_options = [m["display"] for m in model_list]

# Dropdown menu
selected_display = st.selectbox("Select a Model", dropdown_options)
selected_model = next((m for m in model_list if m["display"] == selected_display), None)

# Convert size to params in billions (very rough approx.)
if "GB" in selected_model["size"]:
    size_val = float(selected_model["size"].replace("GB", "").strip())
elif "MB" in selected_model["size"]:
    size_val = float(selected_model["size"].replace("MB", "").strip()) / 1024
else:
    size_val = 1.0  # default

params = size_val
tokens = st.number_input("Training Tokens (B)", min_value=1.0, value=300.0)

# Select compute method
gpu_choice = st.radio("Choose Compute Source", ["Manual TFLOPs", "A100", "H100", "Exo"])

if gpu_choice == "Manual TFLOPs":
    teraflops = st.number_input("TFLOPs/s", min_value=1.0, value=100.0)
    cost_per_tflop_hr = st.number_input("₹ Cost per TFLOP-Hour", min_value=0.0, value=0.0)
elif gpu_choice == "Exo":
    exo_flops = st.number_input("TFLOPs from Exo", min_value=1.0)
    teraflops = get_gpu_teraflops("Exo", exo_flops)
    cost_per_tflop_hr = st.number_input("₹ Cost per TFLOP-Hour (Exo)", min_value=0.0, value=0.0)
else:
    teraflops = get_gpu_teraflops(gpu_choice)
    cost_str = selected_model.get(f"cost_{gpu_choice.lower()}", "₹0").replace("₹", "").replace(",", "")
    cost_per_tflop_hr = float(cost_str) / 100  # rough est: ₹ per 100 TFLOP-hr
    st.info(f"{gpu_choice}: ₹{cost_per_tflop_hr:.2f} per TFLOP-Hour")

# Estimate
if st.button("Estimate Time & Cost"):
    result = estimate_training_time_and_cost(params, tokens, teraflops, cost_per_tflop_hr)
    st.success(f"""
    📊 **Model:** {selected_model['name']}  
    🧠 **Params (est):** {params:.2f}B  
    🔢 **FLOPs Required:** {result['flops_required']:.2e}  
    ⏱️ **Time:** {result['time_hours']:.2f} hrs / {result['time_days']:.2f} days  
    💸 **Cost:** ₹{result['total_cost']:.2f}  
    ⚙️ **Compute Used:** {teraflops} TFLOPs/s
    """)